SCIENTIFIC ABSTRACT SAVOSTYANOV, V. - SAVOV, B.

   MATEYEV, Ye.; NIKOLISKIII A.S. (translator]; PAVTEROV, V.P.[translatorb TSUKANOV, V.I.[translatorl; SAVOSTIYANOV V.V.Ctranslatorl; FU.- ZIS; G.B. [translator] or]; VIKENTIYE;V,A.I., Ltranslat red.; OLISEVICH, Yu.Ya.,, red.; PRIDANTSEVA, S.V., tekhn. red. (Labor productivity and the reproduction of the means of produc- tion under socialism] Pr6izvoditel'nost"truda I vosproizvodstvc,'' pri sotsializme. Pod red. A.I.Vikentleva. Predisl. V.S.Nemehinova. Moskva, Izd-vo Inostr. lit-ry, 1961. 269 p. (MIRA 14:10) 1. C'"IUIi-kU-UI;bpVUdV"L ALI Narodnoy Respiibliki Bolgarii (for Mateyev). (Labor productivity) (Economics)           r,t%jIt A~ -i Physical tistute of th's 14t*4t Phl)161r*PWC Inu e V 00 . g ' -%kVtlSt)anOVA. so )._A rvkw - . 00 ir 00 00 zoo 00 00 a0 1 0 go WE ' 7 zoo Zoo 00 Al t t6i~ I) 4j to 7 I 0 *16 9 00 0 0 0 0 0 00 9 * 0 4 es 0  A C L I 00 00 00 00 T" -emmi- ad am" bau& crydmia. St. v rcmd - &-d - Jri. U. R. .5. 9. 00 in (IIK14).-Almwptkm curycs ~ 00 awtal lwfiwv anil aftet excitatim (dm-mw,g of cvwd. Caumd 1,Y expuourr la light), Thcrr 1. "i" between cadtatkm arml futnitwwn,,r c4 "wh 4h. C. 1). West 00 tv it 3 wta n a 0 0 0 0 0 0 0 0 0.0 0 G~f 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0-0 00000 0 a,* 0 O'o 0 0.4 4 4 0 00 6 00 00000 0 0,  v RI -I., V., v Ar 00 -00 -00 -00, fe X1. 00 goal Vass =00 00 too t:00 A 1 61 t AbF TALLURGICAL LITVRATURE CLASSWKAIPCM z C206 03 9 ZA 01) a a 0 Er u u Av IWm It rc f or w3n : 0P cr 1, '0 It so 00010 11 111 , 1: A" 0' o' 0v 0 ~T,v -0000~0 000000000 0 g 00 0 0 -0-0-0 0 0 0 0so 0 0 0 0  561` 4#44111114" 14 11 It 14 L if n aUUv xu 11 14 13 14vIf 6 1 8) 1 A Is is 1! L f L K I IL LF a9 1 1V T iA-1 T Z AA t ,I- a41 . V. I- -t- 0mufl g 1-0 'o IRS9 0a ii ; - yNailve oil 0 1 A l 4 , , 1 01-fritt. C-0 2:14 l -31MU34) rIn 0( thin I or qua rtz Put- awl 'L-1), _t 1. Ulu t PC-Plr ,hr a frf) forni full 1, sith 1 1,U1111 to."I 09 00 h! Poe U Tj If ; If re t V ew is 0 . V IV to to ON I, IN It RK ntr14 La n II 0 0, 0 0000 900 0 0 0 0'.000 00 *00 * 060 00 0 000, 00 0 0041 0 0 0 0:0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 Ole 0 4 0 * 1& 0 0 0 9 0 0 0 * a 0 0 4  I u am 4 $1 j? 0 id a a v a 41 a a a 0. IV 01 a C 0 ir 6 so x L 4 a a PC a s 7 w 1, a b A , # , 1, 1 , . AT is n Liffre 47. ravill CROU.S 00 Oil Oil 0 00 0*8 eon 00 son eon go 0 be 00 00 psm 00 "Man-ma am *o- a-.RMASMKP 1"I PCM OM3WDUa4d MOO all Of 1309-100 PRPMJW 00 ~p MnA-V '21AMM1,111nAUS 'A"IV 'P4010#90 04"MIS 00 00, to fe fo- Ir e&, o0 00 m w 33'K 3 F go n X, a -011 41 W U 9 U s( a alt.*41 *III %agtIlf, j, 9t 6 -L -1 o 900 0 0 0  Oij f s I I M it it it 1. 0 a P IN w 0 a 0 41 a U 0 L 4 L 1 .0 A. L 1, A X Y 7 4" 7fill, T so I:, It , ' I I " ' ~ "- ' 66 14~ t,-#-1-0 4 00 .0 0 us, Photochit"tistry of Crystals. St. 8avoe1jumvit. Ai-fa -0 0g PhYsir,who"iri, 3. 2-3. pp. 346-334 , Disc., 3,11711M.- ttvTe-w of the iubject tinder the 4cctions: (1) Atomic anti colloidal dittributinn. in Which tile light effect N toirtlatetl 0 ith the naturr of live PhtttochemicAl product-1. it) 14t%ltwtx oil ehe prinsary traction, In which the alkali -00 00 mid silvrf haildes art allacuuM. It I% v~x1thitivil thAt calloklal Itartkim, -00 -if ilia. > 30mia (for&;CO. ard funned under the Influente of light. AM that l1w liarticle witedepwndson the Intensity lif thir ati-tivr light. (PSevandary we* pluitarlwink-al rmetitaw witch an the failing %thh-h occurs in thnw crptaltl. 00 00 (4) The phs*whgmtisftyqf silversalts. InUmPtactisswit.R.OckfaMy 00 draft with the drilviuleni* of tfw quantum yicl%l on trotMaturn in the cw" of tile alkali hali(tv crystAln and the clectrini tran'ition (vitin the Anion 00.1 to an adjwent hation. It. Zahmewitaw Loo.sMcmi metal fog." 00 4 It. If. flu. see 600 400 A S 2 1 1A OVALLURSKAL LITINATUOt CLA%%WKAT$Qx fS go-in. v L U 24 OP 0" 4o go ia eq 0" *a '0'0 0 *0 a 0 0 00000000 00000 0 : 110 0 00 0 0000 0000 0 0 0 * 0 o1: 0 q 0 0 00 0 06 00 0 : * 00 0 ~G'~  " - , I A F I I w it 12 li 14 u n a 7A V in ji v u I? a w a Al u a a 4,40 a a v c r m 1 9 L I- x v z M So Of khe Noblem f M it o e opuW Cmd&at, at K~WL (UJPehi FiZiCh. Sauk (progrejj PAY4. Sri.). 1937. 18, (4),, JiUmmian 1 A i . reT ew-N. A. JOIS 0 =00 as* 00 j r ive goo see see A S 0 . S L A ETALLURGKAL LITERATURE CLASSWICATIOP E-Z 7-r - ----- --- --- Cal OW 4- IS - - In 11 It 1. ; K nd a II I w m 5 a a 7 9 l e 00 00 0 000 0 e  , I 6 a to V .4 1 11 it " 03 4 it n 1, r 0 U I It 13 11 L A M j r of to 64 as re . . - L i 00 .00 00 69 00 A film filter for siotillpt for the Lafmred regim of the ee 11111actrun. 0. V. Novikova anti Al. V *,avustyanova. 00 . Ki.of"Iekki-. I'm.. S. No. z4txir. of 1940, 11. KPI A-GIA- C11"tt, FCO W*4 U,'-al 4-% 01 filter [tit 0o tile i"ITUICII. 'I lie [~. t ff,01% WVtV.)hIAitMl %ith Lift Fef I 1-wite"I tof 11.351~ And a thickness (if lite jtla,~ ol:1 I IIIIII. I lie tramjxtrct~y toi radiAtima, 4-1 vantmas rcocion, 6i1 t lie spectrum and the sensitiviry,if the filter were feted "uh to Wth natural anti artifickil wrilight, NL G. %I,xjre "go t;oo coo 'it AT M:) LS is It 5 n 43 rd no A (lit tila 3 2. o 0 a 0 0 0 0 0 0 o 0 Ole 0 o!9 0 0 00 0 0 0 Go* so * W 0 e see 0 0 0 o 0 o 0 Ole 0 0000 0 000006 0.00 *so:* o o o 0 0 of o oe go o 45 l 0 age  Smallest notal Puthda in Cry" LaUkeL M, V. ~IA. ,N,tsk (N.Irejes Phyo..Vri.), 1919. St. (1). 3371).--fln 111wints.) A ounissling up wills sulemtion aft the di"balJoa, of swilisK6 kxw &M awind In Ow lisn": inIn-luction of nsetaltlie kissa, into Out I&AAkv; Moutic diatributitai *A optir,,j IM,1wrtim (F -crutres cAlsiaw diistriwinta of metalot (optleal pntl- it ct,l,,ur tvittiro.); nwLiam ~)( the formation of metal Itartirli-t its the lattwo and the imnsfunnati,m frwmi one state to anutber.   Al is is zp is )q i Ju 11 u AS ]A is 16 m Ap SO a do j 1, L a 11 A I ~ 0 11 M 0 1 T 11 y I,- Jtl~ ILI I AA 0, CE- Clo-EE 182 U po' go A 00 00 90 oldion at sp mottropimmadid-id; "a c-cract -00 ulodolooddleaft- M. V. savoolt,yarmova. B"u. mad. Sri. U.N.S.S.. Sir. phyi. 11, 424-35(1947).-After setting uP 0 0 % table 4 astousencliturv. symbolist still defining equationsm In q1tectrul phottlilletry, S. shwusses the somirce-i anti marl-, 00 j nitude %4 rr"sts mouring in afifferent meth-Is of applies. timi of phott,lulw.. The Irbults given Ill 17 pulletto Jr. .00 scribing tucthoddi 4 uwasuring optical 41., 1) - Aid: (it extinction coeff.), am tabulated with their relative czwt- coo 11M4 abojD%. Accordinj to S. the best Tnethod consists in Ilpticlol compendotion the readings of a singk photo. ads with 2phototullescan1wrec- I)iffcrrntipI froortis 00 1! ~Imwlld~d In ill, ral- ON mornall notical ds. S. 1'. 00 00 goo see we At. to i-wv'y -1. Z" U IS AV K) 11, -r lot K ir If a m It MW n I !.a An L t V 0 0 000 so 00 X a )or so 0 ij a 3 1 Is 09 Soo goo dad 000 Goo 0 to 0 to 00  ABDROUNIKOV, K.S.; RALAKOV, V.V.; BUHINUff, A.K.; BLMAGO, A.M.; VYMMAN, L.A.; VISHIIXVSKIY, A.A.; VOLOSOV, D.S.; GASSOVSKIY, IL.K., professor; GXRSHUN, A.A., professor-. TBLITAS119VICH, M.A.; YEYSTROPITNV, K.S.; GURNIGH, M.M., professor; KOLUDIS, A.I.; KGRYAKIN, B.M.; KURITS- KIY. A.L., PAPIYANTS, K.A.; PROKOI?'YZY, V.K., professor; PUTSVXO, Ta.1C.; RIZUNOV, M.A.; RITYRI, N.B.. 3LVOZT4,YA,9YA N , professor; SUCHANKO, A.N.-. SSHNOT, N.I.; STOZHAROV, A.I.; PAYMW9,* G.P.. professor; FROFILOY. P.P.; TSARIVSKIY, Ya.N., professor; GHEKHKATAM, D.P.; TUDIN,Ye.F.; KAVRAYSKIY. V.V., profmasor; VAVILOT, S.I., akademik, redak.tor LoPtics in military science] Optika v voennom dale; abornik statet. Pod red. S.I.Vavilova i N.V.Savostlianovoi. lzd. 3-s. zanovo perere i dop. Moskva. Vol.2.1948. 387 P. (MIRA 9:9), 1. Akademlya nauk SSSR. 2. Sostavitelt sotrudniki Gosudarstven- nogo Optichaskogo inatituta (for all except Vaviloy and Xavrayskiy) 3. Voyanno-morskaya akademiya (for Kavrayakiy) (Optics)  SAV06TIYANOVA) 14. V. 42C91. SAVOSTI-I'AIRNA, III!. V.3 =-KALIN, V.V. Issledovaniye spek- trov pogloshcheniya relkoto-z"N,kh pronezhutochn,yinch produktov i Chan4-' a VT Sovesh azokrasiteley naftalinovo7c i7ada. (Doklad i preniya -, - po spekturoskopii). Izvestuiya Akad. "la-ak 66SR, Seriya fiz., 19U, No 5, Bib 14 LoCr: 10 nazv. SO: Le-topis' 2.hurnallnzkh Staltey, Vol. 36, 1948   law-weadom of absorption *Wtre of Pocat intermediate ucts and sito dyee of the aspitthalene group. V. v. r,"I'llialift alid M V. 'Aivint'yanova, J."st. Mad. Xzuk. 5,S-S-R-Str. Iris. 14SWORID-18).-Almirlmon wevira of %M naphthalene cumpd-j. (of wlik-h 15 azo dyn arc new synthetic products) were measured with a flickman spectrophotometef. The dyes indicated in the paper are: 4-phenylato-l-n4phthylamine; 2- and 4-phenylazo-l- rLiplitholl; 2., #;-, and 8-phenylaiii-],S-amino~aplith~)[; .2- and 6-phenylaso-1.5-aminonapht hot 4 -sulfonic arid; 2- and 8-phenylato-I,S-aminonaphthol-d-sulfonic acid. *1,8-diphenyt-1,5-aminonaphtht)1-8-sulfinic acid. All the products show the short-wave maxima of the tuiplithalene m,)I, One shw-wave max. Is con.1t., another shilisasa lunct~jn of subititutlon groups. There Is a "main" 1,1,141,1 in the YNbleregion in the dye9,sh1ftlnjtif4lxisl(Wn wit 'I gr,mp. the poition of this mat. is Indelwotirnt of j; ortbohydrory compds. This "main" max. is not eh; teristic for the azo group but is due toan intri-action Itte aso group with the naphthalene nucivus and side wlllupl~,. In t fie above azodyes all bond may exist S-Pakswer  Rotation between mol"ar strutture and *bao d bands of owns com"da in the 41- and trfpk*nylm= oseim. V. V. flereltalin. M. V. Ssv,ost'y-A;wva and R. 1, Murozova. 35(19W),-In the absorption spectra of diphenyinxt bane, tripbtny[methant, diphenylearbinol,and triphenylembinol in Ht am. moln,the fine structure of the band at 2W mp, compris- ing the MAU f - 10,94), 411,1(4), 31I.M. MAW. AIM. 37,700. and 37.1311 Is linictkally lifentical. In dimethyl. aniline. dimethylaniisiodipbenybuitthant, di- and trimethyl 4minotripheny1methane: dimetbyUminodiphtnyl and tri- pbenylearbinol and in trimethylaminatriphenylcubinol j new weak band at 300 nip appeus next to the 290-mm band; the fine structure of the 260-mg band is more or less pro- nounced. In tetramtthyIdLuninodiphtjiylmethant 2 new bandsa=&t34Oand5MmjA. IninaLichitev"nandin crystal the 2 Aort-wave bands are conserved (with at 249 mm and at 316.5. 3M mp, resp.). 11cre is no fine structure in the 249~-mp band-, the relative intensitim we modified, 2 new bands (one very intense) ap9w at 423 and eM mo and at MO and 6W ms, rnp. P.   ' W5 mo, whilAts 6-benseneato Analog has max. at 208 M Aso dyes frovis 1, 34- 1, amd ammse of Ift dwiva- - ti VIfI T 380. mod WO mp. 71* abwptiw mat. of tM gli;;Iii i; ves. . he alstmeromis p of mamag ad - d e6 of dw mapaskee Wrift V V P H MOM and EtOll-N&OH. resp.. me: . . . ete n y , M. ca . T -(Lensorrt T ! Inst "ago)-l-vaphthol: 490 and 490. 4-(p-b,ibczp art 470 1 ., .. '-'~-h P'R= L i 10 and 53D; 24"minobes 41 en nrricll Kki.. (J. Gen. Cl...) 21. 132P-40(1031), cf. C.A. 43. IDOEJ&,-7'be nw"ra of and BM: 64p-bydrotybeavenesivo)- I.&aminoamphthol: 510 and no; I-Whyd wxylie. the nsphihalene comp1q. studied here dwar, with a few de- Vistions the bonds of the na hthak e l hil th d OW and AM: *hytimsybeivismeavii).2 84tinkmeplithei: i;i ;l n ma e e . , w yes p t nanopbtbd: WD 1,54*bentemio)-2, OM and 5W; fft"PlaY new sMific bwnffq. TIN onho-Oll and pars-OH / i . ;4M NO mp rompt s. exhibit lntramA. 11-bonding. I.&Amintmaplithol wW has abs. toax. 22D 270 and SM; 8-heapeseame ana ft: shows max. at W nip., and 316 mp. Its 1-sulfestic acid . . 220. 2W.' WO. anti 320: 2-benicticato-1,6-sinimmobit bol- shows a max. at M and 340 nix. The 4-sultonk AM No 4-sullmic "- 23.5. 310, and "0, 111-1111 eawl 5- max. at 2311 AM W mod, while the 6-suffanic acid Is" max. - surdirmaphtlie"-sulfortic acid: 2M. 310, 345. And AD: At = and -W mp. l,&Aminouaphtbol-7-subNsak acid 2-benieneazo-l,&eminmaphthol-7-qulfonic acid, MO. 310. h2a max. at =1 V-5, and 342 rnA. AM 610; 6-bentimearo analog: 227, 3W. 370, and 51S; ;me has mat. at 2Z7. 770, and 3M mp; its HC1 salt bas max. .2-bmienenzo-1,5-amin(maphihol-O-oulkmk- a6d: 219.200, :t 230. 2*). 3M. and MO mp. 4-Seniteneazo-l-amplithyl- and M- 9-bentmeazo nnalog: M, 200 3W. and NO mine has mat. at =, 2-Y), 2W), and 433 rnp, and its lfCl , , -MO, Wt at 223, 2W, 270. 3(W), and W mos. 2-11ensenemzo-l- acid: 215, 3W. W, anti W: 2-brnienftro-l,&arnlno- tiapfithol! has frmx. at .335. 295, 36.5. and 400 top. its 4- napbtliolL"llfanic acid- 2", 3-45, and 5220. &henzenearo- ttentennso mtijlog h4s max. at 2M, 290. and W mja. 2- l.&&minonaphthol-&sulfnnlc acid., 234. X.T. and NO; hAS MAV. At "-Wf, XW). And and 2,ti-bt%(benmftto)-I,A-antinonAphthol4Lguffonic acid: '140. 323. and 840 mj-. r"p. G. M. KOPOISIXY9 SAIM"TIYAN107A, Y. V- a skim 17 SR/phySicr; - Stalin Prizer. Is Jun 51   dwfvadwn 4W di- end tri. Pertkalin. U-1~.jama'- a. and R. 1. Marawwa. Zkw. ObskeW Kk.sa. (J.* Chm.) 22, 01-0(102).-apadra of nurneft" deviv%. of dl- and tri=Imt-thaned swim indicate the crystalviols p-(in buffer pit 6.67)230(t.00),301.37) presenm in the opetrittv, derived yets of tabs. bands of 36%0.13). and 5KI(O.97). In ca". HCI Malaclkite a;" .. the surfing materialts, with a sbift of the position of the shows the dbappearance of only tbe Wager-weve bond. .horter.-wave bonds and with a redistribution of their in- "hik the other 3 remain unchanged; crystal violet behaves Wan -* iM ten,ities. Wit was used a3 solvent and the pit of talus. similarly and &W loacs; the 360 band. with a of vras R.O. The Iollowing &lse. bands (mm) and extinction new band at 435 ms. Univalent pas. Ion TMkla cvwffs. (X 10-4 wrre observed: PhNMet 251(l.34). 290 Orren gives 249(0J3), 316.5(0.W). 425(0.86), and WE) (0.23); (js-MrvNCJI.)vCHv 2W2.0). 3W3), 300(0.422), (3.44); blvalent. Ion gives 22M"(025). Z1211(0.12). Wul 442 p-MrNC*HCJfPb#, 2W0.73). 300.094); (p-M*#N- 0.276); while trivalent pas. Ion of crystal violet rives 230 CH4).CIIPb. WX3.47), 2rAX31M). 2W3.2). 300(0.53); ~0.99), 200.7). 314(n.37S), 43t)(0.96) (the la"er 2 in 3D% (p-MrNCJIACff. 240(2-32). 2M3.78). 2U.5(3A4), 263 IICI). while the univalent pow. Ion of p-dimethylausitsoarl. (3.)12). ZWO.74); e-Mft,%'CJJ,CIf(OH)NMes, 267 plarayfitsethane (from the carbinall; run in dil. HCI). gave 48 'VXXO.Tl); M-). 2PM(-). 333(-). and 490(-). , Pbestyk-thr& 5" R (j~-Mrj%Cjjj.hQOH)Ph, WXI.4), 2f4 1: pynu"une has one bwW at 246 top and its colarid derivs. WX0.2); (P-j6fr#NCOfI4hCOff, MX0.24L 30f)(0.11 . ) The pos. lon of the colored salts of bis(p-dimethylami YO. retstin this band. with adtln. of lonpr.wsve bands. q MOphen methane (from the respetive cwbinol) gives in Et . at I G. M. Kostsiapoff OH pit S. abs. in". at 2&5(1.14). 3000.2). 340(OiM -and I I . i Mi(OM); Malachite Green (in buffer wAn. pit 4.2~ gave 249(0.36). 31#%JKOJC). 42.5(0.M). and 1IM3.44). while  T USSR/Optics Physical Optics, K-5 Abst Journal: Referat Zhur Fizika, No 12, 1956, 35711 AutijQr: Savostlyanova, M. V. ----------------------- Institution: None Title: Optical PrcWerties of Colloidal Solutions of Dyes Original Periodical: Izv. AN SSSRY ser. fiz., 1953, 17, No 6Y 747-755 Abstract: Clarification of the problem of the applicability of the-well-, worked-out laws of optics of colloidal metals in the case of dyes, -which insolid atate have optical properties that are-close to those of metals; It is shown that for substances for which n >,-/-(dyes), the well-~known Rayleigh-Mie equations can be simplified somewhat by expanding in series; an analysis of these expressions makes it pos- sible to investigate the effect of the dimensions of particles and of their optical constants individually. It was established that: (1) the dependence of the position of the maximum of coaffd:aent of attenuation on the size of the particle for colloidal suspensions Card 1/2  USSR/Optics - Physical Optics., K-5 Abst Journal: Ref erat Zhur - F:Lzika, No 12, 19%, 35711 Abstract: of dyes is weakly pronounced, and therefore one cannot expect such a variety of hues, as-iB observed for colloidal suspensions of cer- tain metals (sodium, silver); (2) the position of the maxlm= of the coefficient of attenuation of a colloidal solution of a dye in the case of the "smallest" partifles approximates the position of the maximum of the index of absorption (7c) of a solid layer of dye and that furthermore the.smaller X the higher the extent of approxi- mation., and therefore the color of such-solutions is nearly equal to the color of solid films. By way of an object of Investigation colloidal solutions of fuchain in benzol were chosen, obtained by diluting with benzol concentrated solutions of the dye in alcohol or acetone; depending,on the method of preparation, one obtains sole with particles of various magnitudes., having'absorption bands with maxima at wavelengths frcm 500 to 640 mu. The calculation of the spectral behavior of the coefficient of attenuation of light in a fuchoin-benzol system for particles of various diameters yields curves that are in satisfactory agreement with the experimental ones. Card 2/2  PHASE 3: BOOK-EXPWITATTON- SOV/9-M-8(il) Akademiya 11auk SSSR. Institut geokhimit i analiticheskoy kbimiJ imeni V. 1. Veroadskogo. Y.6missiya po analiticheskoy kbimli Spektrofotometricheskiye i kolorimetricheskiye metodjr analiza (Spectrophoto- metric and Colorimetric Methods of.Analysis) Moscow, 1958. 286 p. (Series: Its: Trudy, tom. 8 (11) Errata slip inserted- 3,000 copies printed. Resp. Ed.: 1. P. Alimarin, Corresponding YA--mber., Axademy of Sciences USSR; Ed. of Publishing House: V. M. Fbshjwva; Tbeh. Ed.: N. I. Moskvicheva. PURPOSE: The publication is intended for chemists, particularly analytical chemists and geochemists. COVERAGE: 7his collection of 29 articles is published as Volume VIII (XI~ of the Transactions of the Committee on An&Lytical Chemistry at.the Institute of Geochemistry and Analytical Chemistry imeni V. I.,Vernadskiy, Academy of Card 1/6  Sciences USSR. The general subject of the vollaw Is tbe investi8ation of spectropaotometric and colorim-tric ana-1,ysin. Individual articles on the fol- lowing topics my deserve special attention: the present state of lltg~2t absorption analysis, the sensitivity of the colorimetric methods of in- organic analysis, the basic variations of the kinetic method of analysis., spectrophotomet c investigation of hetera Uri polyacids of germanim., a new colorimetric. method of determining small quanitities of ths-111um, a fluori- metric method of determining ureaium, spectro-photometric investigation of the behavior of oxidation-reduction indicators, a pbasometrie optical- acoustical method of gas analysis, and a description of an'automatic spectrophotometric gas analyser. No personal1tiez are mentioned. References are given at the end of each article. TABLE OF CONTMS: Savostlyanova, M. V. The State of Light Absorption Analysis Today Komar', N. P. Characteristics and Plossibilities of Collorimetric and Spectrophotometric Analysis. 21 Khznetsov, V. 1. Increasing the Sensitivity of Color-Imetric Methods of Inorganic Analysis and Colorlbactions 52 Feshkova, V..M. Effect of the Structure of the Molecule of an Organic Reagent on the Absorptiou Spectra of Metallic Oxime Compo=ds 75 card 216  SOV/51-5--i-16/21 .iLU THOR Savostlyanova, L.V. TITM On the Optical Constants of Copper and Gold (Ob optichaski4h postoyannykh medi i zolota) FERIODICAL: Optika i Spalctrosicopiya, 1958, Vol 5, Nr 4, pp 469-472 (USSR) ABSTRACT: In 1942 Givens (Ref 1) published values of the optical constants of copper filins produced in vacuum. In contrast toall othar 7ioricars, (Rafs 2-5) Givens's curves do not exhibit a sharp p,3ak 1u -tho ra"ion WO-600 mtk, vihich was .0arliar observed for cop,.~.)ar and gold. S tud i as of the optical properties o� colloidal solutions ofmatals give an i-?,*Jt~)pandant method for vefification of tho vavalen6th,depandancas of tho optical co-s tan"Ca Tha Pt-leguation constant Eh is -;. functiou of ~ha co-ifficients nA and k Aaa-d of t'~a -,aarticlediarjottu., 2.A. By comparing tha axp-jri-iuantall valua5 of vith those calaulatad, from nw 4 ~,Cl the -,rAhi,3s of n x aadl k arx, thair -.-avelangth depsnds=ss may be a ,,d .. k chac~,-ed. For particle sizes up to 30 m ~k the ~ -~m i ti on of the uiaxim= -amation s-ectrum remains constant both in copper and gold; in theatt r only the mamitria of -~he at~,;enual-,ion intexisity is affact-zad by the particle size. This --Cleans that colloidal solutions of copper and gold u ad -within this re-n-a of particle size to char* the mvelength may be s E~ - Qla rd 1/3 dependences of a and P., . Fig 1 gives the -mavalanxth dependence of  iov/,-31-5-4-16/21 On the Opi-Acal Constants of Copper and Gold the attenuation constante, for several particle sizes. Fig 2, carve 1 gives 4. for a NaG1 crystal coloured with colloidal copper particles (Raf 17). Curve 2 in Fig 1 gives F_ N for colloidal copper in glass tthe results are, taken from Ref 11) . Both curve 1 and curve 2 show a maximum at about 570 m~, a mintm= and -chen a further. increase at lower wavelan-ths. Similar curves are obtained also for colloidal solutions of gold ~Reb 11, 14-16). Gurve 3 in Fig 2 gives,the calculated values using Givans's data kRefs 1, 6). 'fables 1 and 2 give the vavelengtha at -which maxima and minima occur in the -wavelength dependence of the a-Itenuation coefficient F- of colloidal solutions of copper and gold in various media. These tables give also the values of F-mpx and smaxAmin for thesame colloidal solutions. The results of Fig .2 and Tables 1 and 2 show that the peak in the wavelength dependence of n and 10 of copper and Gold does in fact exist in the region 500-4600 mfLand -.,hat Givens's rasults iaust be ir, error. The Card 2/3  On t1he Optical Constants of Copper and Gold SOV/51-.3-4-16/21 author thanks I.I.M. Noalcov for his advice. There are 2 figures and 2 tables ant', 24 referances, 9 of which are Gervian, 6 Soviat, ? Abierican, 1 French and 1 English. ASSOCIATION. Go~~udsrstveririyy optichaskiy inribitut iiii. 6.1. vavilova (State, Optical Institute imani S.I. Vqviloy). SUBbaKED. Jaaurry 6, 190-7 i 2 "p :,V0,"er 3.  11  K-ARYAKIN, A.V.; SAVOSST'YANOVA, M.V., prof., doktor fiz.-mat.naukp red.; SVESMIIKOV la-:~--A-M~"f i z. -ma t 0 nauki red.; KHRUSTALWA, A.A., izdat.red.; ORESHKINA, V.I., tekhn.red. IT-ilminescent testing] Liuminestsentnaia defektoskopiia. Pod red. M.V.Savostlianovoi i B.IA. Sveshnikova. Moskva, Gos.izd-vo obor.promyshl., 1959. 49 p- (MIRA 12:11) (Luminescence) (Testing)  KRAVETS, Torichan Pavlovich Ldeceased]; SMIRNOV, V.I., akedemik, red.; TEMIN, A.N., akademik, red.; GOROKHOVSKIY, Yu.N., red.; NgPORKNT, B.S., red.; SAVO 'YAfflgVA, MJ., red.; TOPORMS, A.S., C 4 red.; FATARKAN, G.P., treYdj:MWdft-0V, r. S., red. izd-va; ZENDMI , M.Te., takhn.red. (Works in physical, Trudy po fizike. Moskva, Izd-vo Akad.nauk SSSR. 1959. 339 P. (KIRA 12:8) 1. Chlen-korrespondent AN SSSR (for Kravets). (Kravets, Torichan Pavlovich, 1876-1955) (Physics)  5 (4) AUTHORS: V., Matsinova, L, G. 5()V/2O-125-6-34/61 TI~LE:, The Colloidal State of. Dves and Metachromntic Prap-rtlao- kxasitelc-Y i Mel-Akhramazlyn) PERIODICAL:. Doklady Akademii nauk SSSR, 1959, Vol 125, TTr 6, pp 1294-1297 (USSR) ABSTRACT: The nature of the change of color (metachromesis) in the presenceof highly polymeric.substances (chromotropes) is Of importance in histochemistry. The new absorption maximum M .forming in the presence of cbromotropes is caused.by the aggregating centers of the dyes (Refs 1, 2). On the other hand, highly aggregated structures occur also in colloidally distributed dyesVwhich also have a characteristic absorption Maximum (Ref 3), For the purpose of investigating the connection betweenthese two phenomena, the spectral properties (in benzene, acetone, etc) of colloidally distributed methylene blue, fuchsia, crystal violet,. and cyanine (3,3-diethyl-9-methylthia-carb.ocyanine-iodide), and, in addition, the.properties of the aqueous solutions of these dyes were investigated with an additionof agar-agar. The Card 1/2 maximum M is in both cases caused by centers of colloidal  The Colloidal State of,Dye s and Metachromatic SOV/20-125-6-34/61 Properties nature. These aggregates are characterized by optical constants which the dyes have when in the solid state, and are, of the magnitude of,some dozens of millimicrons. This amount, however, changes according to experimental conditions. The experimental results obtained are given by tables 1 and 2 and are shown by figures 1, 2, and 3. There are 3 figures, 2 tableIs, and 14 references, 10 of which are Soviet. PRESENTED: January 24, 1959, by TereiAn, A.11.) Acadeydciaa SUBMITTED: October 15, 1958 Card 2/2   ACCESSION NR: AP3003604 3/0077/63/008/()Oh/0249/0252 AUTHORS t Savostlyanova,, 1-1. V.; Agayeva, h. TITM: The influence of high-molecular 3ifuzitlances qn the absorption spectra of pi-,:rment-, solutionse (On,tho problem of the nature of H centers) SOURCE: Zhurnal nauchnoy i prikladnoy f otograii i kinematograftip v. 8, no. h, 1963, 249-252- TOPIC TAGS; spectral analysis, pigment. absorption spectra, pi&rment solution, toluidine blue, methylene blue, pinachroino dark blue, high molecular compoundsp carbo-.y1me-,1Vlcel1u1ose,, sodium bisilicate, sodium silicatev gelatin, H-lines, H-lines ABSTRACT: Experiments were performed to provide data for substantiating the hy~r pothesis of 14. V, Savostlyanova (Dokl. A;.) SSSR, 1959, 125J 1294). According to her view there exists a siirilarity bebueen the H-lines appearing in the absorption spectrum of carbocyaniG pigment solutions and the M-lines produced by the cation pipnents in the presence of ionic high-molocular substancess The pigments tested W weret toluidine blue3, methylene blue., pinachrome blue.. 3.,11-diethyI4, 6-dimethyl- 8--.1-aortl-iio-41--pinocarbocyanidep 3.,31-diethyl-4,t5*4,,P~e-dibenzooxycarbocyarxide- Card 141'~-)  ACCESSIOU UR: AP30036o4 i :p-tolusulfonate, 3,31-d'-.-thyl-9-etilyi-4,5,41,51-dibenzothiocarbocyanocliloride, and 3,31,9-trietliyl-11,5j4'j5l-dibenzothiocirbocyanobromide. The high-molecular Com- t pounds tested were: agar-agar) carboxy~hothylcellitlose, sodium bisilicate, sodium silicate, gelatin 2221, and gelatin 12350. The results of these tests are prWertedl- graphically in Figs& I and 2 of the Enclosures. It was experimentally determined Ahat the short-wave absorption maxima of all pigments (tested in the pres;nce of ~every high-nolecular substance listed above) 'lay in the same narrow spectral al. -lines and H-lines are identicald~ ijiterv, The authors take this as a proof that M Their view is further sustained by the identical course of M intensity curve Is under~. :'Vhe influence of varying concentrations of the high-molecular substances. Orig. :art. hast 1 table and 2 gra plv. ASSOCIATIONs GosudarstyenrqV opticheskiy inst-itut ima-Se Is Vavilava (State Optical Institute) suBimms i3jul6o DATE ACQt 02Aug63 'ENCLs 02 SbB CODE: PH NO REF SOVt 006 arHER: oo6 Card  J, S1048 63/027/001/022 B106 B101 hl. V. and Chernyshevt V. A# THORS; AU TITLE: A spectrum analytical method of studying high-molec 1 substances and its applicability PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya v. 27, no. 1, 1963, 62-64 TEXT: Factors are discusseTthat influence the practical application f the spectrum analysis of dyes for the, examination of high-molecular~ compounds (HMC). In this method, HMC containing ionic groups is added to an ionic organic dyeiof opposite, charge whose absorption or luminescerIX3 spectrum changes continuously with the doncentration ofthe HMC. An essential point is the formation of K centers at-the "optimum cojicentra~ tion" where the corresponding abort-wave absorption band A is strongest~. The formation of such centers is subject to the.folloving factors which- limit the applicability of the method:,(1) Th~ centers form at a stoichiometric ratio between dye and H11C; the optimum concentration therefore 4epends on the dye concentration. (2): The K centers change Card 112 L  S/048/63/027/001/022/061 Aspectrum,analytical method'of ... B 106/13101 considerably when solutions of dye containing HMO are left standing f or,- a longer period. This is due to the gradual precipitation of:complexes, having the absorption.band,A.. Their. solubility considerably decreased.- owing to the mutual saturation of the hydrophilic groups of various, components. (3) A twofold or threefold.increase in HMC concentration above the "optimum concentration" caus6s a small shift of band A. This effect can be clearly seen,in polymethine dyes. -Hence, Iconstant dye concentrations must be used in order to ensure~reproducible resul ts when applying this method t,o.the practical examinati.p~ of HMO'. Measure, ments'have to be,made at.a certain time after-th.e-solutions have bedn 'determined fr'm the obtained and the "optimum concentration'l,must.be 0 Position of the maximum A U (at its smalles'~wavelength)) not from its intensity.-There are 3 figures. ~Th'e most important!English'.Ianguage reference is: P. Yukherjij R.'Mysels. J.Amer.Ch'em.Soc.,77,2937(1955),. Card 2/2   L 30080-66 DEW (m) /E7dP( J) IJF(c) RM Acc ziR: Ap6b12210 SOURCE CODE: UlVO23V66/000/OC)4/0009/0017 AUTHOR: Savostlyanovaj.,M. V.; Voroblyev$ A. G.; Polyakovp Yu. N.; Shal~hverdov,-3 T. A. ORG: none TITLE: Characteristics of processes of coloring and discoloring of photochromic substances such as spiropyranes in polymer films SOURCE: Optiko-mekhnicheskaya promyshlennost', no. 4, 1966, 9-1T .-TOPIC TAGS: luminescence, quantum yield, organic solvent, pol"er chain, 0.0'L6'ell ABSTMCT: The authors investiGate the photochromic.effect (reversible change in the color of a substance under the influence of absorbed radiation)) and derive certain quantitative characteristics of polymer films containing spiropyranes, the.photochromic characteristics of which were disclosed in a patent by C. A. Carlson (USA Patent 3A85,469, class 88-74, 1963). The spiropyranes together with the polymer (polymethyl. metacrylate, polystyrene,polyvinyl butyral, ethyl cellulose, and LP26 polymerization lacquer) were dissolved in a solvent (chloro- form, dichloroethane, acetone, dioxane, benzene, alcohol) and the film left after Card 1/2   L-05703-67-- ETWPI~-' =x, ~-mY/T- -TJKcJ ACC NR, SOURCE CODES UR/0237TWO ~/0031/0041, AF6ot6356 W& AUTHORS ~avoxtlyivnova, M,_Vt 2 ORGS none TITLE, Fhotahromic conversions of spiropyran molecules and their applications SOURCES Optiko-mekhanicheskays, promyshlennost'p no- 59 19669 31-41 TOPIC TAGS8 spimpyrang photochrony, internal photoeffect ABSTRACTS The art.-icle reviews the phatochromic properties of one class of phatochrodc'. organic compounds,, the spiropyrans, which are of interest from the standpoint of bath the mechanism of 1=toconyersiona and their practical applications. 7he structural changes taking place in the spiropyran molecule are shown in Fig. 1. a-'g. 1. Schematic representation of structural la = changes of spiropyran molecules under.the influ- ence of ultraviolet (hvj) and visible (hv2) ra- A B0.7 diation: a - general diagram, b - diagram of CH, CH CH.? the molecule of 1,3,3-trimethylspiro(21 H 11- f e hy benzopyran-2!,2-iedoline)- zC h C 7' 'hV,. CH, Card 1/2 UDC: 541-14 A  T ACC NR: AP 6626356 The spectral properties (absorption, luminescencel, spectral sensitivity of coloration and t?6olorizaticn and their kinetic aspects) of spiropyrans in solutions and R21Mr filmsV'ind the reproducibility and mechanism of the photochroxic "actions A" cussed. The advantages and limitations of the applications of phatochromic systems (light modulatior~ information recording and storage systaw) are indioatod. Orig. art. hast 7 figuros AM 3 formulas. SUB CODEI 07,,20/ SUEN DAT&I 17NOV65/ (BIG IWIFI 0161 6M MW# 051 Card 2/2  57-     ACCESSION NR: AT4013966 8/2659/63/010/600/0283/0289 AUTHOR: Tomi)ln, 1. A.; Savo atlyanov.A.'- N. A. TITLE: Determination of the solubility of nitrogen in chromium SOLTilCE: AN SSSR. Institut metallurgil. Issledovaniya p0 zharoprochny*m spla:vam, v. 10, 1963, 283-289 TOPIC TAGS: chromium, nitrogen, nitrogen solubility, solubility, chromium al loy ABSTRACT: The detailed investigation of chromium-nitrogen alloyawas started not long ago, when chromium and its alloys began to be used as structural metarials at high temperatures. Numerous investigations led to the conclusion that the brittleness of chromium at low temperatures is caused by the presence of impurities, especially carbon or nitrogen. Nitrogen, present as a solid solution, has a strong influence on the mechani-, cal properties of chromium, a property which has now been used as an expedient way of determining its solubility in solid chromium. The solubility of nitrogen in chromium 18 determined by an Investigation of the following equilibrium reactions. 1/2N N (solution in Cr) 2 ~(gas) /2N2(gas) + Wr(golid) __4 cr2N(solld)  i ACCESSION NR: AT4013966 at different pressures and temperatures. Then# these equations were used to determine the thermodynamic characteristics of solutions of nitrogen in chromium and of chromium nitride (Cr2N). Several graphs illustrate the findings. The dependence of the n itrogen that concentration in chromium on the pressure was determined, and it was shown solid solutions of nitrogen in chromium are ideal dilute solutions. Figure I of the Enclosure shows the results of the determination of the solubility of nitrogen In chromium in relation' to the pressure at temperatures of 1250 and 1340C. Figure 2 of the Enclosure shows the solubility of nitrogen In solid chromium In relation to temperature. Finally, the de- pendence of the dissociation pressure of chromium nitride on the temperature is shown in Figure 3 of the Enclosure. Orig. art. has: 5 figures and 14 formulas. ASSOCIATION: Institut metallurgii AN SSSR (Institute of Metallurgy AN SSSR) SUBDUTTED: 00 DATE ACQ: 27Feb64 ENCL- 03 SUB CODE, MM NO REV SOV: 004 OTHER: 018 2/5 Card     L 2472o-66 E',VT(M)/&VP(J-) IJP(c) RM ACC NRt AP6009511 SOURCE CODE: UR/0413/66/000/005/0020/0021 AU'rHOR: Ivanova, V.A.; D,; Y-or-OA-1y&y, rg. B.G Ginzbu Zharavin, K. N.; Korchilava, Ye..Ya.;.Savost'XaDova,--N- a. ORG: none TITLE: Prep ration of C~!p~ax727T_q~rqa tobenzothiazole. Class 12f No. 179~06 ch Ins tute of 0 anic, nounced by the Scientific Research Ins rg Semifinished Products and Dyes-and the j3erezniki Plant of Aniline Dyes (Nauchno-issledovitel-i-s~y '~ poluprodue,tov i krasiteley i Bereznikovokly anilinokrasochnyy zavod)j SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 5, 1966, 20-21 TOPIC TAGS: captax, mercaptobenzothiazole, aniline, aniline dye ABSTRACT: An Author Certificate has been issued describing a method for preparing Captax-2-merdaptobenzothiaz-ole by melting aniline, sulfur, n1trobenzene, carbon bisulfide at elevated temperatures and pressure, followed by dissolving the melt in a water solution of alkali hydroxide or milk of lime, purifying the solution obtained and separating the product. To improve the quality of Captax, cle- contaminate the waste water and make it possible to use t6 solution Card 1/2 UDC.- 547.789,6)2.07- T r 11A i  L 2472o-66 ACC NR, AP600951-1 of the alkali Captax melt for the production of Pulfuramides, the purification in conducted by extraction with benzene polychlorides, chlorobenzene, benzene, or their water emulsions, followed by rem vat of the residue of the solvent by conventional methods. FLD SUB CODE: ll/ SUBM DATE: 08Aug64/  (2) SOV/75-4-3-1 0/134 Turova, N. Ya. , Novoselova, V. , Semenenko, K. N., Savostlyanova, R. i. T I T L E-': On the Phenolates of 3eryllium (0 fenolyatakh berill-ya) P'."RTODT-C-,'L: Zhurnal neorganicheskoy khim-ii, 1959, Vol 4, Nr 3, Pp 5401-552 (USSR) A3STRI~CT: The interaction between beryllium chloride and P-naphthol and p- and m-cresols has been investigated and the nroperties of the resulting phenolates have been described. The rea:ction of beryllium chloride with o-, p-, m-cresol takes place at takes 90-1000C. The interaction of p- and m-cresol with BeCI 2 place under a strong development of HC1. The phenolates of beryllium are white,, amorphous, hygroscopic substances, which slowly hydrolize in air. Thermographic and radiographic investigations were carried out. The following phenolates have ~been prepared: P-naphthol beryllium (Be(OC 10 H7)2 and -OC and Be(m-OC H ' The phenolates of beryllium H Be(p ) ) . , 2 2 7 7 7 7 are slightly soluble in benzene and xylene, stable in ether. Card 112 Decomposition occurs under the action of 7-nethyl alcohol.   SAVOST'YAIIOVA, S. I.; ZIATKIS. L.$.; ZOIDTIKO. Ye.A.; 3CRKOVSKAYA. G.R. Result of therapeutic and pedagogic work in a children's home for infants sequelae of organic lesions of the central rArvous system. Pedistriia 39 no.6:72-78 M-D 156. (MW 10: 2) 1. Zz Oblastnago domm rebenks NO.7 KharIkovskogo oblazdravotdals (zav. D.F.Shevchenlro, -,lavW vrach S.I.Savontlyanova) (CMRAL MVCUS SYSTIM.: diseases, in inf. & child.,ther. (Rus))   STUIIIYY L.A.; &URCRIOVA, O.N.; BUTSIKA, L.K., kand. med. nauk; KRIMBOKOVp S.A. [Kryv-obokov-1; VOLOSHBOV, B.I.I. (Voloshynov., B.M.1y dotsent BICHKOVSKIY, V.N. [Byshkovslkyi, V.N I dotsent; POKOTILOIIA, V.Yu. [Pokotylova, V. IU]; KOLESNIKOV, G.F: [Kolesnykov H.F.]. ZLATKIS,, L.S.; SAVOSTIYANOVA, S.I.; BRIN, D.D. CR7yn, D.D.1; MATVEYRTKO, Ye.A. BRONZ, L.M.; YEPSHTEYN, L.G. (Epshtein, L.H.1, kand. med. nauk; SIIAKIDIOVICH, L.A. [Shakhnovych, L.A.] Annotations and authors' abstracts. Pediat. akush. ginek. no-3: 31-34 163 (MIRA 1711) 1. Kharlkovskiy nauchno-issledovatellskiy institut okhrany mate- rinstva i detstva (for Stuliy). 2. Kafedra detskikh bolezney, Odesskogo.meditsinskogo instituta (for Safronova). 3. Ukrain- skiy instit-at okhrany materinstva i detstva (for Butslka). 4. Detskiy sanatoriy cElya rekonvalestsentov ot tilberku2.eznogo meningita, Kiyer, Pushcha-Voditsa (for Krivoboko*). 5. Detskaya klinika Ivano-qrankovskogo meditsinskogo instituta (for Volo- shinov). 6. Kafedra detskikh infektsionnykh bolezney Krymskogo meditsinskogo instituta (for Bichkovskiy, Pokotilova). 7. In- stitut infektsionnykh bolezney Kiyev-( for Kolesnikor). 8.Kharl- kovskiy oblastno det lkly dom No.1 (for Zlatkis, Savostlymova# Brin I~itveyenko . 9. iafedra pediatrii Kiyevskogo medi-iiistl%ft ~(for Bronz) 16_.~'Kafedra fak-ulltetslKoy pediatrii Gorlkovskogo med. instituta (for Yepslite-yn). 11. 2-ya detskaya bollnitsa Shevchen- kovskogo rayona g. Kiyeva (for Shakhnovich).  'nr -:P-i- ur. reor~~, rab,di~um and cc..-~I~:m cn khilu~ no,12i'23..',10-2805 (ja E, A ineril Domcnoao-va, kla f e d ra fz 4- c he sk oy   'Ely 0, f, Y~- A. K, ~e, zan n 196Z. Kul. urj;i r I I of Uom (Mf.V- 17-12) or. as ron. 9 nc-,.8:-78 If) 14 tu pedagog-hesildy st,  PHASE I BOOK EXPLOITATION SOV4350 Sovashchanlye po khAmil, tekhnologii I prImenenlyu proizvodnykh pirldina I khImlink. Riga, 1957 Khlmjya~ tekhnologlys I primeneniye nrol-vodnykh pirldina I khlnolins: materlely SoVeshnhanljA (Chemistry, Technology and Utilization or Pyridine and QuInollne Derivatives; Materials of the Conference) Riga, I.-d-vo AN lAtvly3koy * lnaerted. 1,000 copies SSR, 1960. 209 p. Errata sllp printed. Sponsoring Agencies: Akademlya naux Latvlyskoy SSR. -InatLtut khimll; Vzosoy=noye khImIcheakoye obahchestvo. S. Bazhanova; Tech. 3d.: A. Payavinya; Editorial Ed. ard- Yu. A. Bankovakly, Candidate of Chemtatry, E. V. ;o Varmga~ Candidate or Chemistry (Reap. Ed.)j L. P. ZalukRyev, Doctor or Chemistry, and M. M. Xalnyn'. PURPOSE; This book In Intended for organic chemists and chemical engineers. COVifi;G31 The collection contains 33 articles on methods or synthealzirg or producing pyrillne, Itlinallne, anti their derivatives from naturil uour-es. No personalities are mentioned. Figures, tables. and references A-1:Ompany the articles. TARIP OF COh-.L%r3: 1. PY'RID-INE kND Q1jjNOLj-,S D-zRr.IA:-r~rS THZ TFMRXXL CRACCIZI OF pr.-L3 X. M. --rm Salts Ottall'-qd ?-0,C031 T,, Akademll naw,. :n or '-'1e Alalqmy 'if Z-2t'3n'~es 'J33'j)j tra'"On and Utllltation of Nltrog-nqo,_, 3,sqq FrIl', the Sa=lcok-Ing of Chare=;Lhovj Coal 25 KuzrQt-3Ov. V. I., and A F. Paj-~y~jheva j jn3t Ltut. teplo. - ?,,,.er FnZIneering Li . Institute of the A-&-e'7 Or S,.'s. 'er * The Cwttent or ?7-IdIna Baaes In T&rs From 'he Thermal Decomposit.-on of Lignites From tne Dmiepr Basin 3T A . I' L and 0. Ya. V-inaz [Ins-ttut khi~u ' A;; J a H A eM a k n L&-v17sicOY 53R (C5 iU-,,Aj VINtitute of the AaadenW or Solen_~3 lAtviyakaym SIR)]. Pyridine Bases pro. 3aprovelte Tar- --- %3 p-,'- , u - 0. -P-mull'.ftmr- '1r1 . - ' tZnl-tul neft, AV Uesd. hauk s3a ntlt-lre f the A!3demy of S.-je.,%4:es USSR)] ~ math,j, of Dmtemqnatl n'd th Chars"ert&t 0. 4c3 ' ToW Nltmgen and N*trvgen .. BAS-0 !.n Pletrolle'ms 55 [:"titut gorytichikh ' kcP Q-nYkh Akal.mul H na-i~., SSsR (jnat_-tt. for MIn-ral F-.1- ~ Of -rm klad-my of : S-Ien~cs USSRA St;ara'1rn or -he B-p ~Olihs Frd,:tlon of 11 -ar by "q Sele-tiv- Extral-tion Method 69 Pyll'skl- 1- a,%J S. [Ph*,3,Vj* h r% 'y Inatitute or the for Gentrall Chi!,--.t-y (w,.-,a.)) PhY31cr,h-itcall Stud--es _,n ' Ba--es p-, p.,d~,tta or the Ch~cucll Processing )r V cou  S, Void Fjmp:8f,. 39k. ff - -g [I Pill I - ha 4 ui ~F- Haiti L.a 4 A a g ;LI N E; T a  ACC NR, ANoonc-~- SOURCE CODE: UR/O153/66/009/k-5/W91/0793 AUTHOR: Kudryavtaev, N. T.; Colovehanokaya, R. G.; Savostlyanova, V. 'I. ORG: Moscow,Ctiemico-technological Institute Im. D. I. Mendeleyev (MoskovSkiy, khimiko-tekhnologicheskiy institut) TITLE: Cathodic process in electrodeposition of cobalt-titanium alloys in hydro- fluoboric electrolytes SOURCEI IVUZ. Khimiya i khimichaskayn tekhnclogiyas v. 9, no. 5, 1966, 791-793 TOPIC TAGS: metal electrodeposition, cobalt'rtitaniu-malloy electrodeposition, .,cobalt ti*tanium alloy, ACA~.~+.f- alf4j-'- I ABSTRACT: The effect of pH, temperature, and current density on the composition and quality of deposites and theyield of cobalt-tita.nium alloy obtained by elec- trolysis in a hydrofluoboric electrolyte has been investigated. It was found that at an electrolyte temperature of about 20C and a pH of 1.7, a current density increase from 1.5 to 20 a/dM2 resulted in the increase of titanium content in the alloy from 4 to 10%. However, the quality of deposites was poorer and th(1- yield of alloy dropped. Temperature increase to 50C resulted in a decrease of titanium con I tent to 2% and poorer deposite quality. An increase in pH from 1.7 to,3.1 brought- about an increase of titanium content and yield of alloy but the deposites were spongy and contained titanium hydroxide. The best quality.of deposites, containing Card 1/2 uDc: 66.062.662:542.97   Y, U, Repn 'Cn or cterist4ls of t-"~O _,-eLa~4V~ i -ducti st or Genetics, -"icad 'ScJ !jS:iF, 54. Kck-Sa,-hYz.. Gan:. Bicl 3ci, Ln (Tr, 15 -ep 54) SO: Sun 43 -22, 217~ ~!ar 55             /j L 10214-66 ACC NR: AP5028542 SOURCE, CODE.- AUTHORS: Stramoust-K. F.; Savoting-G. I.- Por2hbM, G. A.; Perelmey, Yu. W,.; Lysov, N.* I. ORG:~ none TITLE: A machine for, building leyv luvial s and for,-forming land slope sn along al plain Class 84f No.. 175897 lannounced by Designand Ccustruption Bureau of Clavatroymekhanizatoiya of the State Production C66mittii:on~the-Trans'nort Conitrubtion SSSR (Proyektno-konstruktorskoye byuro glavstroymekbnizateii,goeudar~styennogo.. proizvodstvennog'o komiteta po transportnoma stroitelletvu Sssi)7.', SOURCE: Byulleten' izobreteniy i tova=ykh =akovi no. 20, 1965, 52 TOPIC TAGS: excavating machinery, construction machinery ABSTRACT: This Author Certificate presents a machine for building levees on alluvial, plains and for forming land slopes. The machine contains a working member with n=erous buckets for transverse excavations (seeYig. 1). This.memberlis,6upported1j,: a bearing-turning platform. To assure the possibility of levee building, and slope.. forming, as well as trench excavatingt the working member is placed on the turning, platform eccentrically in respect to its axis of rotation. :The rear' part of'the.: . machine contains a transverse carrier and a demountable stopping baffle fixed.to:'the' frame of the working member, ~The body of.each bucket may be open at the bottom, while Card 1/2 Ulm 621.M."3.6    BULGARIA Farm Animals. General Problems Q-1 'Xb:~ Jour: Ref Zhur-Biol., No 3, 1958, 12045 Author Savov Atanas Inst Title Comparative Laboratory Experiments Aimed at the Study of Toxicodynamics of Silaged Wild Chestnuts (sravni- tellnyye laboratornyyeopyty po izucheniyu. toksikod- inamiki silosovannykh dikikh kashtanov) ,.Orig Pub: Nauchn. tr. Vyssh. veterinarnomed. in-t, 1956, 41 481-491 (in Bulgarian) Abstract: The chestnuts were ensilaged both after drying and after boiling, as well as after soaking, etc. 5% infusion, prepared from the silaged wild chestnuts without previous processing, showed a lower hemoly- tic number, as compared with the infusion obtained from fresh and from boiled chestnuts. Nevertheless, Card 1/2 5   SVOV, B. SAVOVY B. A dam and a small hydroelectric plant. p-33-     L122 Wis. =votuarude-va. Vol 16. No 2, Fearuary 1902 1. *prcduO*Icm is NOW ko;t;or and Caospor," convurpa lion cooperAtive mlta jTa~_jCJJ;ff ChiAf ZoologLel. at tho c rarm n h TI, A4 or Uzloduy tYratsts kruE)j pp 3-6. 2. "Now OramnixatIon of LAbor in Livestock Waing at the 31,azo ram in Star& Z& om VU-11CO SABAXOV and Slaaoreat 3 SOVI pp ~_ll Top-ac-mentrated V6.42) "TnA kdvxntaS*4AjLrs UbTIOUN fron the very i*61nalne." . To4or,jjLaMY, =qr 7ouicsim, t 'ti, cooperatIve tam in pp 12-13. "apOCIAILZaLlon and Concentratloc Hog PAI mina I m 9 ' stats F&ma.* Vasil Letarov a., tze 3. -- -, v t ~l J111 tro7 Z (AtrlotilLural pp lz 5. Joint FattegrbS Yam of tne C"poratIvo Fa=& In =van akrugl" Borialav SKVV; ,Zp 21-24. , ..6. "The, ?omalbillties for ProdualmS Vora L&mb.* Nolko X=ZTV of too State Livottoa . ZO460%rated 70"Jer'" "Hay FloUr__& SUoXtI* .Uto for r 1. zc--I, senior Zoologist. Okfug People's Council, Rate'rad; pp 30-31. a. *70ts.-.091--to Im;ortant ReaOrTs ror StretW_thealng Fodder Base." Kastadla (ANCIM? (100100s, Witt '30 Slaacevgrad Okrug Comait'M-c. %.he Allgarian Co=Imlet. Party) and --mitur rA-.D--MV; ;p 32-34. 9. *Die Tias for UmIn6 Fodder ~rc Stefan DIkITROV. p " the regilo-R-Al- Junior Scientific Collaoor, tor : 1ATestomc scianUflo ressarea In 3tars. ZAaars: pp 35-40.