SCIENTIFIC ABSTRACT RYSINA, N.S. - RYSKIN, A.I.

Problems of Physical Metallurgy- 983 Card 7/8 17 .  Problems of Physical Metallurgy 9193   S, ~/Eng ee-Ang'-,--Modu'bIb-`6f nidri Ai bolii~co V Pub 22 N. Rysifia ~-irig~;adirdj pera ur"--'d Effect'.of.bdlb t e---~ epen ence-o - o6n diepli~6 nt~, od . .......... Per odlicai.; i er ~the- f ng~.~a Experiiu Atempietature.,-,- eIff e* diii oy -dc-sc- on them hardpess s, i Hb rith 'the-'hel -co t -,wit on.a oys-t ,4~vacuum'furnace:ii ' ~ .--~ eml hte iiAi~~e-,regxi o or torsional~ a anee And- elictron 6 b 1 , a p;-,-~~grap tii Ineti ti6n of'Mit 2:the': Ceht*r #C66~,Of 6 illurg , cie C: s u e ~~o ei-r6lis:~ Met' hun . RO, 6ii6fi s Presented;~by Acdd~~i6ian-.d.- ~,-V-.'~:Kur-dylm'ov',t-IU~--:4-:'--19'54   1~064 'AJ) '742/62/000/690/006/021 ~-IO15/I215, AUTTIORS :Rysina, T,.N.,~lsevelevap , TITLE: ~Offs The transmission of plutonium to the Pizing ~ :SOURCE: Plutoniy-7239; rasprodeleniye, bio'lbgicheskoye at. d ey viyd uckoreniye vyvedeniya 'Ed. by A.V..,. Lebedinski Yu.I Moskalev., Moscow Medgi y and z 1962,:'41-44 ' ' TEXT: . the The problem of the: transmission of plutonium from inlaternal o)-onnism to tho-offopring.during pregfiancy as well a's during 1~LctaUon nsufficiently studied, xperiments,were carried has.been i out on 17 I puppies of varyinj!~. agesp "which-were boni at'different t i6e, a k after the -administration of. plutonium to do s.- Plutonium nitra~te was.adrain istered i.v. fo r times -at intervals of one month*,,,,- The. t6talL u Pu 'The liver and, the.bones were~ examinedfor: done of was 0 2p(4kg b.w. ,,', -Card'1/2 -6. 4    k--.T  28242 S/581/61/000/000/013/920 The distributibn'and ~excretion. D299/D304 ,.animal's~weight Plutonium distribut ion -was' studied . 3 '6 - and 11 months, ..,and 3, 3.5,,and 4 years. after,its lntroduc'tion.~_ Bothlexpon- escriptio ential and:Power mo'dels:'were usedlor the .mathematical d n um n the body~, tissites and excreta, ,,but, o " Ethe behavior of plutoni i the,exponential - method was.'f ound- Ito conform best with thc.experi- melntal:'findings. ~: MathematicA calculdtion.of the-.ekpressions--was accomplished by the method-of,l stributi'l e ast, squares.; The' di 01 of Pluto elbody is shown in tabular and, orni, broken'..," nium in'th graphic f down into,skeleton, liver,sple idneys'and' en, muscles, lungsi k other t,?j ~,organs,',at the various stages of investigation. . The distzibution,' .tai ''Yas , as follows: 'skeleton,40% .,,:liver .307*, muscles 12.476, spleen 2--3%1, .Z,-,tI Irugs 0.450N0, kidneys 0.36%. -In all organs radioactivity decreased: 'with'time.~ In~the spleenit dropped to 0.4976 by the:600th day and, in the kidneys,to 0.1276 by the.1000th day. :.Subsequently the~pluto-', nium content in these organs remained c'nstant.,,.The data from the. 0 excretion :0f.plutonium is broken down into 2.lperiods:.'I) 2nd-23rd day, 2) from the 23rd.day on,7ards.-For the first.3 weeks plutonium --reti-on-with the stools was higher,~than excretion with,the urine.j     30352 S/205J61/001/004/011/032 The excretion of... D298/D3031 and xanthine (average of 007 mg) was found.in the urine of normal rabbits Irradiation of the. rabbits led to anAficrease in the. excretion of these, substances with the urine., The effect depended on the radiation dose in: a range of 50 to 300 r, The,maxi- level of,oxypurine excretion was reached on the first,dAy:after irradiation at 50 300 r and on the second day after irradiation in a dose of,1,000 re The increase 'in the excretion of xanthine and hypoxanthine at eairly,states after irradiation was'obviously,a consequence of the disintegration.of,nucleic acids and further oxidation of the purin* nucleotides which formed, with their mini- Mum u s e fo rthe synthesis of high-polymer compounds. These results are gs of Western and Soviet researchers. The, compared with the, findin heightened xanthine and.hypoxanthine levell.in the urine on the second day was probably due to intensive,lesions and late.restoration of nucleic acid synthesis, especially the synthesis:of deoxyribonucleicacid,-under the. effect of lethal and , sublethal. doses -of radiation. .:R. Ye . Libenzon. helped with scientific direction of, the research, while N. M. Nilmlina and.R. N. Zakharova helped in the:experiments. There are I table and 19 a rd,2/3 J(         ~Ngll-,R     /1 1: ~.,. ~ I - (S.- - ~~;, -,-, - 11 -,. -i-- I I ~. '/ ilk ~:~- /:J: ~ ; . _ I - ~. -- . - .~.: I : - -. --il-   Meglw -    M. A. ~ 1 11 1 1 120   y Y-1 Y-A-- I X-M to Ax w 't, . ...... ...... oil -00 0e 00, -00 4376.. NEW MMOD OF THERMAL CONTROL OF OXING f 11 C TO DiMOVE -00 UUTWT OF (1h E OVENS. Ryaka, Z. Wi-ik ENT ON ABOVE. Kavele'~- Y. and,Samuel,- V. Vol* 301P (5-6), ~M-lm paliva, 1950, and -9), 248-249). scheme is.propoised for recording the temperature of.coks, as it in pushed outlof the oven, by electtonic detection of Infre red rays. 00 X1 :0 A S .S L. F.LL(,-GK.L LMR.TC-It CL.SSIFIC.M. ,PC, ~0`0-01 ~00-1-001 16--1! ~0161010` - tim"a     ~j~' C-7T.'CHO~'j,OVP' 2t, u Ifl / Chemical Technology. Chemical Pro- 11-13     - , I `xll-,~-,- , - / - - , I-IV-r;-l-.- A/ 21425~63 q - --- P. I - - , ,.~ "a  L -17495-63 .;j S ON,NRt AP3001' 1 ?38 f o Si In: fiiit~,Appro)dAation- Ahi':-, -6"Sfer:: iis:! prqpor i _E~Cl sure o noet to, the th average'. ree -.pa an age .,.amoun i"o es,per vs!~~c~~d:,~,tfiioaih~--,`i --matter,which, pass e f 'En on - ~-O 0 dAermined from7equati ea ing',-jilitc P7, The egrqe~to w- h t h: 72 b A -Cli-i"' as. 3O.-;0 U Increase ac -me a~~y em af~ec peri uresi ~,th~ 1"AipIV, S ,-'c -causes _iL.deteribrA'i-(on*.- ;hig ~-con `k- i nitr:ogeri'~ a osp~eie-~4iih`littI6, or.'. e erform., well --n. a epipp e r .V of-'1150C iT '-~Vacuun~ rnace. attaine 1:1 A was s t~ 'Cr 18ii, e se ea- ure 0 an once- 0 vacuum-: set race perat -should ~b anco,,even,. V, e~ e S a no S. temperature dr-Ni 3-1 b Aum qxidi*;-'~~',',`Q,. rich i - iiwii e . used; n - a oys~~can, :~-Ab6vd'1000 ceramics-cion a Ais6 `;kith n.- w num~-.o C til Inih idde - it6'- heat-. r-i ii' i' avi e." ''Mica,. ~Asbest6s!,iii&~Aiici--: estiby-_'_ es s d antag' Orlg... art. ha s . 4 f i k u r e s' 6 s 4 equa ASSOCIATION:',:~nohe "o So E,  - V a2 , V -17495~6 3 ACCWSION AP3001738:--r' s MaTTED: 3 1 3 o~ . e SUB,~Cdbij, jj~ '- N6 REF SOV 0(    ACCESSION NRt AP4038932 Z/0017/64,/053/006/026.5/0267, AUTHOR: Ryska, Zdenek (Docent, Doctor in engineering) TITIXs Highly ref raotozy ceramic materials used in electrAhermics% SOURCE% Elaktrotoohnio ky obzor, v. 63, no. 6, 1064, 265-267 TOPIC TAGS:. alurainum oxide, magneeiumoxide, silicon dioxide, thorium dioxide, zirconium dioxide, beryllium oxide,' metal oxide, ceramics, ceramiomaterial,'heat- resistant ceramic materials refractory onramio material, electrothermics, electrical, hoat production :ABSTRACT: The present article is a continuation of a.previouastudy (Slaktrotech- .nicky Obzor, no. 5 (1963) page 247) and . pertains - to highly refraoLtory ceramic materials which are usedin elootrothermias and'which have been recently finding an!, nver-increasing application in rocket and,atomio engineering. The primaa7-indices, of these, materials, which are. used, in.equipment. operating at high vaouums, suoh as that in oil diffusion pumps, i.e. Ix 10-9 mm Rg, 11 ~ 10711 mm Hg in mass and 10-14 ma Eg in measuring equipment,with photomultipliers. ~The.new areas of application of,these'materialelpermit.a,wider,use of-elootrio heatsouroes with high temperature gradient (eegeeleatria.,aro, plasma, eleatronio heating)e The Card 1/2         oil@) (Raman. effect)        Al . . . . . . . . is 11 11 11 W n 16 it 1-4 _"imliji 'In' is it V a M n U U W a H U U al U it [it tNp..l.~G 1.0 'kV al. Elul., 00 .6"issal Mixed 4aolital 61 u; and their "molecular 00 A Compounds. W. - The .17:110f certain ketones on a btyl *Wum Iodide In other solution. V. M. u" t a'0' To' T.I." atov and A 'chuk.- J. GeR Chrm. S. R.) 9. 1 cf. C. A. 29. 4'p4R'.- _ hm Th reaction of BuOhIgf (1) wilh p-.%IcC.H.COI'h (11) rS;, R Th (n 0renone (111) and dibenzalacetone (IV) in ether wa; 00 rr at b, rried out by the metbod prr7iously dc%cribed. Of tile /it, only 00 jri,:~ ketones only 11 gave s mall. compd. with Nig1j. III anti IV avacteat in the same manner aa,; ahlehyd" anti benril to give mol. Cmilptis. with 1. 1 (0.1 H1411r) with 11 (41.15 Os mole) gave 24% yield of 311AKIS. _ III anti IV -with I under the same condit ions maire 111.1. oranite-brown (80% yield) and IV.I. yellow-brown (88% yield). rrsp. -The go 0 00 bitter, decompd. with dil. H.SO., gave BuOll and 9A 51' IV_ John Li.~ 00 00 IF -1 rt, a I a. SL A 41TALLUR6K.L LITFQATL; 91 CLASSAFKATION uz!'~ Oa. 11-l". wMaNo -a L. 4- Q.t 414131c"Ci 611til iW a" too -71 3~~ U is AT .0 L%j IEr 114 5 A3 it it Ktt it mm A I 1~; An t ;0, 0 o 0.0 0 0,0 S'wq a o 0 0 0 W 9, 0 6~60 04 0 0 *A o 10 00 0 * 0 0 00,000-0 0 0 0 0.0 00's 0 4 00.00 0.0 0 0 Se   -W~M!-L rust. Ir ),-A mj*W w#b 126  i9so 0000*0 0000~oo'66'0--oo'o'-OO-O-ooooooo Des 0000ioeo .1906.00060000000000 100010000600,6000000000o 0, : 00 0-11 -G4 6~41 1 i 0 b 1 r m 4 IS I/ a, -0L 34 61, 41 0 At M IN AT U n c 1 6 0 som - *On 6 O ;. 3 4 m Z ww - 7 02 00 -1 0 : 00 s0-- 00 00 so 0. 40 . .I ..."Ott rv.'vt 00 la'.W.691 111) u tow 00 Mp pairlu'Irl Jjv: r1?:(j:' 9z r. It P ' ' - 00 0 e. tt WS H ) 'WH*K'J1;-.'; 4.1w Pvql, $nutd 1110ji 8131jua Jnj 10 unjIvIlligAul 13alia-uIrturm 0 0- 00 so. if 1. tv AT a a of or IT it "- 77 IN m Im w L' 1 1 IT IT - ft J1 11 -   WMIHCI balm 00 00 00 go Tmb go Igo! 00 z 46 ki i m k but tbl too go so      Practical Work in Organic Synthesis 614 Part I. General Procedures, 1. Distillation ~7 2. Extraction 27 3. Crystallization 30,' 4. Determination of the melting,poiht 36 5 ublimation S 39, 6. orderof completion of experimental work by students. Instructions for keeping records , 40 7. , Instructions for laboratory~work 41: 8. special precautionary measures for certain cases 41 9. ;chat to do in case of fire. First aid in case of ac,d-idents Part IT,' Synthesis, of Organic Compounds 1. Halogenation reaction 44.~ Ethyl bromide 51 Ethyl. iodide, 52 n.-.Butyl bromide 2 1.2-Dibromoethane 53 Bromobenzene 54 Card 3/8  -------------------- 'Practical Work In Organic Synthesis 614 2. D6hydration reaction 65 Ethylene- 'Cyclohexane 58 Isobutylene 58 Isoamyl ester 6o, 3. Introduction of nitro- and nitroso group 6o NItromethane .66: Nttrobenzene ~67 Dinitrobenzene o- and p-Nitrobenzene 68~1 P-Nitroace tanilide and g-nitroanilide -69'.1 , 4-Nitrosodime,thyl aniline 70 4-Nitrosophenol 71 4. sulfonation reaction 71 Benzenesulfonic acid 74 Benzenesulfonic chloride' 75 Sulfanilic acid 75 Naphthionic acid. Sodium naphthionate 76 5. Synthesis through organo-magnesium compound 76_,-,_ Dimethylethyllcarbinol 83 Methyldiphenyl.carbinol (from magnesium bromylphenyl and acetophen.one)'.. Card 4 V8  Practical Work in Organic Synthesis 614: Methyldiphenyl carbinol (from m,agnesium:bromylphenyl and ethyliacetate) 86 Benzhydrol 86. Triphenylearbinol. 88 6. Oxidation 89 Formaldehyde .94". Propionic aldehyde 97 n.-Butyraldehyde, 9T. Benzophenone from benzhydrol .991, Benzaldehyde from benzyl chloride 99 n.-.Butyric ester-of butyric acids .99, Quinone (bentoquirione) 100 Oxidation-reduction reaction '101 Benzoic acid and*benzyl alcohol from benzaldehyde .102~ Benzyl alcohol 103 Butylbutyrate from butyraldehyde 103 8. . Reduction 104 Ethyl benzene 108. Benzhydrol* 109 Card 5/8  .Practical Work in Organic..Synthesis 614 Aniline 109 Azoxybenzene Acylation.reaction Ethyl,acetate Isoamyl Acetate 115- Ethyl ether.-of benzoic:acid 1i6 g-Pentaacetyl glucose 11T Tribenzoyl glycerin Acetanilide 118 10. Alkylation reaction 118. sec-Butyl benzene Benzophenone ( from.b,enzoyl,chloride and bf_.mzene) 123 om benzene.and Benzophenone carbon tetrachloride) .124~ Acetophenone frombenzene,and, E acetic anhydride) Acetophenone from.benzene and acetyl chloride) Triphenylchloromethane (from.benzene and carbon. tetrachloride) 127 Ethyl benzene (according to the Radzivanovskiy reaction) ~128" Ethyl benzehe.(according-to the Fittig reaction) 129, Card 6/8  Practical Work In Organic Synthesis 614 ~11. !Condensation: (ethyl acetoacetate) Acetoacetic,,ester,, , Clnnamic.acid*'(according,to, Perkin) Ethyl ether~of'cinnamic acid 139 Benzalacetone i4o Benzalacetophenone Benzylaniline 142 Fluorescein Eosin ':~l42: Malachite ~green 143 12. Ref ormatskiy ~ reaction I 'phenyl-,p.;-4ydroxypropionic:aeidI Ethyl ester. of .. 13. , . ~~~Diazo:compound reaction with Diazotization reaction. - , I separation of nitrogen., Nitrogencompounds 146 Phenol 155 Iodobenzene Diazoaminobenzene 156 p-Aminoazobenzene 157 Helianthin -157 Card 7/8  GHUKIIN, T.S.; ASAKEM, D.Zh.; RYSKELDIYEV, A , otv.,red.; ISABEKOVA,A.,                  ptiKa IaI i7*,-,fttii- il-e-a- s~"u~,-ii re o -~z;rti er di-s--trAbistii 0 m,e-n-s on a:.  op-ticai:, ti be ro iiel:.ct ro4op Iti ca to,~:receive~,-,, he ar range c1 2.n.-.-   L i9481-63 AFFTC/A5D/1JP(G)/5SSD- JD, ACCESSION N'I: AT3002230 257/0200- S/2941/63/Wi/660/0 RS:. -,Tolstqyi-N- A AUTHO, kr~kin, A.' I,b 4-~ Z TITLE: Excit ati on nM~~phonhors n SOU'RCE: Optika i spektroskop ya;"; i~6r s nik statey.-*. lt Lyuminestsentsiya. 0. L963 257-~6 1,1103COWS Izd-vo AN S35RP P T0111C TAGS: excitation ~interaction,;dipole transit ion oranee band, absorption + MILCT - The energy transfer.process of,M 0 STE n ions in ZnS-Mn has been studied. ;~The assumntion is made that at low temperatures xcitation energy occurs In ~this e 4L blue centers (spots) lying on t1m periphery of interaction with the Mn2+ ions. The radius of this interaction, Rk, is designated as. th e ratio of orange band.in-*' ccd by Yin2+ tensity (produ ions) to the integrated light intensity. Values of R are tabulated for.various annealed phOSD hor specimens. It is shown that dl ole -ers exists sitions between -blue cent dipole energy trans only in: a region of A. Apart from dipole-dipole energy transitions, probability of interchange transi- 'tions depends on the extent of blue centers; large magnitudes of the latter.beini cormpensated for by small magnitude, overlapping, integrated spectra of radiation -calculation is made of the distance R between blue centers a and absorption. A nd Card 1/2     Problems of Physical Metallurgy- 983 Card 7/8 17 .  Problems of Physical Metallurgy 9193   S, ~/Eng ee-Ang'-,--Modu'bIb-`6f nidri Ai bolii~co V Pub 22 N. Rysifia ~-irig~;adirdj pera ur"--'d Effect'.of.bdlb t e---~ epen ence-o - o6n diepli~6 nt~, od . .......... Per odlicai.; i er ~the- f ng~.~a Experiiu Atempietature.,-,- eIff e* diii oy -dc-sc- on them hardpess s, i Hb rith 'the-'hel -co t -,wit on.a oys-t ,4~vacuum'furnace:ii ' ~ .--~ eml hte iiAi~~e-,regxi o or torsional~ a anee And- elictron 6 b 1 , a p;-,-~~grap tii Ineti ti6n of'Mit 2:the': Ceht*r #C66~,Of 6 illurg , cie C: s u e ~~o ei-r6lis:~ Met' hun . RO, 6ii6fi s Presented;~by Acdd~~i6ian-.d.- ~,-V-.'~:Kur-dylm'ov',t-IU~--:4-:'--19'54   1~064 'AJ) '742/62/000/690/006/021 ~-IO15/I215, AUTTIORS :Rysina, T,.N.,~lsevelevap , TITLE: ~Offs The transmission of plutonium to the Pizing ~ :SOURCE: Plutoniy-7239; rasprodeleniye, bio'lbgicheskoye at. d ey viyd uckoreniye vyvedeniya 'Ed. by A.V..,. Lebedinski Yu.I Moskalev., Moscow Medgi y and z 1962,:'41-44 ' ' TEXT: . the The problem of the: transmission of plutonium from inlaternal o)-onnism to tho-offopring.during pregfiancy as well a's during 1~LctaUon nsufficiently studied, xperiments,were carried has.been i out on 17 I puppies of varyinj!~. agesp "which-were boni at'different t i6e, a k after the -administration of. plutonium to do s.- Plutonium nitra~te was.adrain istered i.v. fo r times -at intervals of one month*,,,,- The. t6talL u Pu 'The liver and, the.bones were~ examinedfor: done of was 0 2p(4kg b.w. ,,', -Card'1/2 -6. 4    k--.T  28242 S/581/61/000/000/013/920 The distributibn'and ~excretion. D299/D304 ,.animal's~weight Plutonium distribut ion -was' studied . 3 '6 - and 11 months, ..,and 3, 3.5,,and 4 years. after,its lntroduc'tion.~_ Bothlexpon- escriptio ential and:Power mo'dels:'were usedlor the .mathematical d n um n the body~, tissites and excreta, ,,but, o " Ethe behavior of plutoni i the,exponential - method was.'f ound- Ito conform best with thc.experi- melntal:'findings. ~: MathematicA calculdtion.of the-.ekpressions--was accomplished by the method-of,l stributi'l e ast, squares.; The' di 01 of Pluto elbody is shown in tabular and, orni, broken'..," nium in'th graphic f down into,skeleton, liver,sple idneys'and' en, muscles, lungsi k other t,?j ~,organs,',at the various stages of investigation. . The distzibution,' .tai ''Yas , as follows: 'skeleton,40% .,,:liver .307*, muscles 12.476, spleen 2--3%1, .Z,-,tI Irugs 0.450N0, kidneys 0.36%. -In all organs radioactivity decreased: 'with'time.~ In~the spleenit dropped to 0.4976 by the:600th day and, in the kidneys,to 0.1276 by the.1000th day. :.Subsequently the~pluto-', nium content in these organs remained c'nstant.,,.The data from the. 0 excretion :0f.plutonium is broken down into 2.lperiods:.'I) 2nd-23rd day, 2) from the 23rd.day on,7ards.-For the first.3 weeks plutonium --reti-on-with the stools was higher,~than excretion with,the urine.j     30352 S/205J61/001/004/011/032 The excretion of... D298/D3031 and xanthine (average of 007 mg) was found.in the urine of normal rabbits Irradiation of the. rabbits led to anAficrease in the. excretion of these, substances with the urine., The effect depended on the radiation dose in: a range of 50 to 300 r, The,maxi- level of,oxypurine excretion was reached on the first,dAy:after irradiation at 50 300 r and on the second day after irradiation in a dose of,1,000 re The increase 'in the excretion of xanthine and hypoxanthine at eairly,states after irradiation was'obviously,a consequence of the disintegration.of,nucleic acids and further oxidation of the purin* nucleotides which formed, with their mini- Mum u s e fo rthe synthesis of high-polymer compounds. These results are gs of Western and Soviet researchers. The, compared with the, findin heightened xanthine and.hypoxanthine levell.in the urine on the second day was probably due to intensive,lesions and late.restoration of nucleic acid synthesis, especially the synthesis:of deoxyribonucleicacid,-under the. effect of lethal and , sublethal. doses -of radiation. .:R. Ye . Libenzon. helped with scientific direction of, the research, while N. M. Nilmlina and.R. N. Zakharova helped in the:experiments. There are I table and 19 a rd,2/3 J(         ~Ngll-,R     /1 1: ~.,. ~ I - (S.- - ~~;, -,-, - 11 -,. -i-- I I ~. '/ ilk ~:~- /:J: ~ ; . _ I - ~. -- . - .~.: I : - -. --il-   Meglw -    M. A. ~ 1 11 1 1 120   y Y-1 Y-A-- I X-M to Ax w 't, . ...... ...... oil -00 0e 00, -00 4376.. NEW MMOD OF THERMAL CONTROL OF OXING f 11 C TO DiMOVE -00 UUTWT OF (1h E OVENS. Ryaka, Z. Wi-ik ENT ON ABOVE. Kavele'~- Y. and,Samuel,- V. Vol* 301P (5-6), ~M-lm paliva, 1950, and -9), 248-249). scheme is.propoised for recording the temperature of.coks, as it in pushed outlof the oven, by electtonic detection of Infre red rays. 00 X1 :0 A S .S L. F.LL(,-GK.L LMR.TC-It CL.SSIFIC.M. ,PC, ~0`0-01 ~00-1-001 16--1! ~0161010` - tim"a     ~j~' C-7T.'CHO~'j,OVP' 2t, u Ifl / Chemical Technology. Chemical Pro- 11-13     - , I `xll-,~-,- , - / - - , I-IV-r;-l-.- A/ 21425~63 q - --- P. I - - , ,.~ "a  L -17495-63 .;j S ON,NRt AP3001' 1 ?38 f o Si In: fiiit~,Appro)dAation- Ahi':-, -6"Sfer:: iis:! prqpor i _E~Cl sure o noet to, the th average'. ree -.pa an age .,.amoun i"o es,per vs!~~c~~d:,~,tfiioaih~--,`i --matter,which, pass e f 'En on - ~-O 0 dAermined from7equati ea ing',-jilitc P7, The egrqe~to w- h t h: 72 b A -Cli-i"' as. 3O.-;0 U Increase ac -me a~~y em af~ec peri uresi ~,th~ 1"AipIV, S ,-'c -causes _iL.deteribrA'i-(on*.- ;hig ~-con `k- i nitr:ogeri'~ a osp~eie-~4iih`littI6, or.'. e erform., well --n. a epipp e r .V of-'1150C iT '-~Vacuun~ rnace. attaine 1:1 A was s t~ 'Cr 18ii, e se ea- ure 0 an once- 0 vacuum-: set race perat -should ~b anco,,even,. V, e~ e S a no S. temperature dr-Ni 3-1 b Aum qxidi*;-'~~',',`Q,. rich i - iiwii e . used; n - a oys~~can, :~-Ab6vd'1000 ceramics-cion a Ais6 `;kith n.- w num~-.o C til Inih idde - it6'- heat-. r-i ii' i' avi e." ''Mica,. ~Asbest6s!,iii&~Aiici--: estiby-_'_ es s d antag' Orlg... art. ha s . 4 f i k u r e s' 6 s 4 equa ASSOCIATION:',:~nohe "o So E,  - V a2 , V -17495~6 3 ACCWSION AP3001738:--r' s MaTTED: 3 1 3 o~ . e SUB,~Cdbij, jj~ '- N6 REF SOV 0(    ACCESSION NRt AP4038932 Z/0017/64,/053/006/026.5/0267, AUTHOR: Ryska, Zdenek (Docent, Doctor in engineering) TITIXs Highly ref raotozy ceramic materials used in electrAhermics% SOURCE% Elaktrotoohnio ky obzor, v. 63, no. 6, 1064, 265-267 TOPIC TAGS:. alurainum oxide, magneeiumoxide, silicon dioxide, thorium dioxide, zirconium dioxide, beryllium oxide,' metal oxide, ceramics, ceramiomaterial,'heat- resistant ceramic materials refractory onramio material, electrothermics, electrical, hoat production :ABSTRACT: The present article is a continuation of a.previouastudy (Slaktrotech- .nicky Obzor, no. 5 (1963) page 247) and . pertains - to highly refraoLtory ceramic materials which are usedin elootrothermias and'which have been recently finding an!, nver-increasing application in rocket and,atomio engineering. The primaa7-indices, of these, materials, which are. used, in.equipment. operating at high vaouums, suoh as that in oil diffusion pumps, i.e. Ix 10-9 mm Rg, 11 ~ 10711 mm Hg in mass and 10-14 ma Eg in measuring equipment,with photomultipliers. ~The.new areas of application of,these'materialelpermit.a,wider,use of-elootrio heatsouroes with high temperature gradient (eegeeleatria.,aro, plasma, eleatronio heating)e The Card 1/2         oil@) (Raman. effect)        Al . . . . . . . . is 11 11 11 W n 16 it 1-4 _"imliji 'In' is it V a M n U U W a H U U al U it [it tNp..l.~G 1.0 'kV al. Elul., 00 .6"issal Mixed 4aolital 61 u; and their "molecular 00 A Compounds. W. - The .17:110f certain ketones on a btyl *Wum Iodide In other solution. V. M. u" t a'0' To' T.I." atov and A 'chuk.- J. GeR Chrm. S. R.) 9. 1 cf. C. A. 29. 4'p4R'.- _ hm Th reaction of BuOhIgf (1) wilh p-.%IcC.H.COI'h (11) rS;, R Th (n 0renone (111) and dibenzalacetone (IV) in ether wa; 00 rr at b, rried out by the metbod prr7iously dc%cribed. Of tile /it, only 00 jri,:~ ketones only 11 gave s mall. compd. with Nig1j. III anti IV avacteat in the same manner aa,; ahlehyd" anti benril to give mol. Cmilptis. with 1. 1 (0.1 H1411r) with 11 (41.15 Os mole) gave 24% yield of 311AKIS. _ III anti IV -with I under the same condit ions maire 111.1. oranite-brown (80% yield) and IV.I. yellow-brown (88% yield). rrsp. -The go 0 00 bitter, decompd. with dil. H.SO., gave BuOll and 9A 51' IV_ John Li.~ 00 00 IF -1 rt, a I a. SL A 41TALLUR6K.L LITFQATL; 91 CLASSAFKATION uz!'~ Oa. 11-l". wMaNo -a L. 4- Q.t 414131c"Ci 611til iW a" too -71 3~~ U is AT .0 L%j IEr 114 5 A3 it it Ktt it mm A I 1~; An t ;0, 0 o 0.0 0 0,0 S'wq a o 0 0 0 W 9, 0 6~60 04 0 0 *A o 10 00 0 * 0 0 00,000-0 0 0 0 0.0 00's 0 4 00.00 0.0 0 0 Se   -W~M!-L rust. Ir ),-A mj*W w#b 126  i9so 0000*0 0000~oo'66'0--oo'o'-OO-O-ooooooo Des 0000ioeo .1906.00060000000000 100010000600,6000000000o 0, : 00 0-11 -G4 6~41 1 i 0 b 1 r m 4 IS I/ a, -0L 34 61, 41 0 At M IN AT U n c 1 6 0 som - *On 6 O ;. 3 4 m Z ww - 7 02 00 -1 0 : 00 s0-- 00 00 so 0. 40 . .I ..."Ott rv.'vt 00 la'.W.691 111) u tow 00 Mp pairlu'Irl Jjv: r1?:(j:' 9z r. It P ' ' - 00 0 e. tt WS H ) 'WH*K'J1;-.'; 4.1w Pvql, $nutd 1110ji 8131jua Jnj 10 unjIvIlligAul 13alia-uIrturm 0 0- 00 so. if 1. tv AT a a of or IT it "- 77 IN m Im w L' 1 1 IT IT - ft J1 11 -   WMIHCI balm 00 00 00 go Tmb go Igo! 00 z 46 ki i m k but tbl too go so      Practical Work in Organic Synthesis 614 Part I. General Procedures, 1. Distillation ~7 2. Extraction 27 3. Crystallization 30,' 4. Determination of the melting,poiht 36 5 ublimation S 39, 6. orderof completion of experimental work by students. Instructions for keeping records , 40 7. , Instructions for laboratory~work 41: 8. special precautionary measures for certain cases 41 9. ;chat to do in case of fire. First aid in case of ac,d-idents Part IT,' Synthesis, of Organic Compounds 1. Halogenation reaction 44.~ Ethyl bromide 51 Ethyl. iodide, 52 n.-.Butyl bromide 2 1.2-Dibromoethane 53 Bromobenzene 54 Card 3/8  -------------------- 'Practical Work In Organic Synthesis 614 2. D6hydration reaction 65 Ethylene- 'Cyclohexane 58 Isobutylene 58 Isoamyl ester 6o, 3. Introduction of nitro- and nitroso group 6o NItromethane .66: Nttrobenzene ~67 Dinitrobenzene o- and p-Nitrobenzene 68~1 P-Nitroace tanilide and g-nitroanilide -69'.1 , 4-Nitrosodime,thyl aniline 70 4-Nitrosophenol 71 4. sulfonation reaction 71 Benzenesulfonic acid 74 Benzenesulfonic chloride' 75 Sulfanilic acid 75 Naphthionic acid. Sodium naphthionate 76 5. Synthesis through organo-magnesium compound 76_,-,_ Dimethylethyllcarbinol 83 Methyldiphenyl.carbinol (from magnesium bromylphenyl and acetophen.one)'.. Card 4 V8  Practical Work in Organic Synthesis 614: Methyldiphenyl carbinol (from m,agnesium:bromylphenyl and ethyliacetate) 86 Benzhydrol 86. Triphenylearbinol. 88 6. Oxidation 89 Formaldehyde .94". Propionic aldehyde 97 n.-Butyraldehyde, 9T. Benzophenone from benzhydrol .991, Benzaldehyde from benzyl chloride 99 n.-.Butyric ester-of butyric acids .99, Quinone (bentoquirione) 100 Oxidation-reduction reaction '101 Benzoic acid and*benzyl alcohol from benzaldehyde .102~ Benzyl alcohol 103 Butylbutyrate from butyraldehyde 103 8. . Reduction 104 Ethyl benzene 108. Benzhydrol* 109 Card 5/8  .Practical Work in Organic..Synthesis 614 Aniline 109 Azoxybenzene Acylation.reaction Ethyl,acetate Isoamyl Acetate 115- Ethyl ether.-of benzoic:acid 1i6 g-Pentaacetyl glucose 11T Tribenzoyl glycerin Acetanilide 118 10. Alkylation reaction 118. sec-Butyl benzene Benzophenone ( from.b,enzoyl,chloride and bf_.mzene) 123 om benzene.and Benzophenone carbon tetrachloride) .124~ Acetophenone frombenzene,and, E acetic anhydride) Acetophenone from.benzene and acetyl chloride) Triphenylchloromethane (from.benzene and carbon. tetrachloride) 127 Ethyl benzene (according to the Radzivanovskiy reaction) ~128" Ethyl benzehe.(according-to the Fittig reaction) 129, Card 6/8  Practical Work In Organic Synthesis 614 ~11. !Condensation: (ethyl acetoacetate) Acetoacetic,,ester,, , Clnnamic.acid*'(according,to, Perkin) Ethyl ether~of'cinnamic acid 139 Benzalacetone i4o Benzalacetophenone Benzylaniline 142 Fluorescein Eosin ':~l42: Malachite ~green 143 12. Ref ormatskiy ~ reaction I 'phenyl-,p.;-4ydroxypropionic:aeidI Ethyl ester. of .. 13. , . ~~~Diazo:compound reaction with Diazotization reaction. - , I separation of nitrogen., Nitrogencompounds 146 Phenol 155 Iodobenzene Diazoaminobenzene 156 p-Aminoazobenzene 157 Helianthin -157 Card 7/8  GHUKIIN, T.S.; ASAKEM, D.Zh.; RYSKELDIYEV, A , otv.,red.; ISABEKOVA,A.,                  ptiKa IaI i7*,-,fttii- il-e-a- s~"u~,-ii re o -~z;rti er di-s--trAbistii 0 m,e-n-s on a:.  op-ticai:, ti be ro iiel:.ct ro4op Iti ca to,~:receive~,-,, he ar range c1 2.n.-.-   L i9481-63 AFFTC/A5D/1JP(G)/5SSD- JD, ACCESSION N'I: AT3002230 257/0200- S/2941/63/Wi/660/0 RS:. -,Tolstqyi-N- A AUTHO, kr~kin, A.' I,b 4-~ Z TITLE: Excit ati on nM~~phonhors n SOU'RCE: Optika i spektroskop ya;"; i~6r s nik statey.-*. lt Lyuminestsentsiya. 0. L963 257-~6 1,1103COWS Izd-vo AN S35RP P T0111C TAGS: excitation ~interaction,;dipole transit ion oranee band, absorption + MILCT - The energy transfer.process of,M 0 STE n ions in ZnS-Mn has been studied. ;~The assumntion is made that at low temperatures xcitation energy occurs In ~this e 4L blue centers (spots) lying on t1m periphery of interaction with the Mn2+ ions. The radius of this interaction, Rk, is designated as. th e ratio of orange band.in-*' ccd by Yin2+ tensity (produ ions) to the integrated light intensity. Values of R are tabulated for.various annealed phOSD hor specimens. It is shown that dl ole -ers exists sitions between -blue cent dipole energy trans only in: a region of A. Apart from dipole-dipole energy transitions, probability of interchange transi- 'tions depends on the extent of blue centers; large magnitudes of the latter.beini cormpensated for by small magnitude, overlapping, integrated spectra of radiation -calculation is made of the distance R between blue centers a and absorption. A nd Card 1/2