~2 014 A T E UNUAISI FIED CIRC ACCl~:,`SJ,,,N NO-APO I J4 776 - ACT/=XTI-ACT--(U) 0 - c Ij M E, 4 t: III D A5ST'~. TH E R I 1~ C Pk L t. Y i ri i r c, t A 10 A r~, uxi c I - 'I U cT I ,. , - I1 4 ! L i L J 11,14 L) t I u 0 F "JX I ~'A,r E i~ 11 D 1'!:: 0 1 I X T . "Ji !.IT H 'SU52 S6 S~M, 4 F"KI-' -~ ~% Y F I i.-:~ I 9.5;y E rZ C E W I T - 1. f 0I.: H I NCR E!~ s I -m~ T,'~NP. F E- IS T i I E: TEMP i- ~'.A T F ~j S r I,. I T F E R E I C J f- f I 1 1* 14 AN 1) wl r 14 A G" A PH VL I I r E J A A.kT I F I C I 4L I X r 5 0 F 1 1 N S rHE it C L A T I'VE UETN. 0 -" ',~A S SENHIA.~ ro F OE TN . L AS T F, J) .3-5 MIN., F AC i L I Y'(.' KUIBYSH-=V. Z AV~.)D I N T Z iP i R T A KU I i3Y S 14 V us sR  AIO!. V UR 0482 Soviet Inventions Illustrated, Section III 1-Techanical and General, /-70. ~Derwent, F'241836 FLUI BEARING prevents rotacion Oi the - P shaft when the fluid pre4sure drops. it consists of a sleeve I with pack4.,ttv 7 ar.,.d 8 Which when filled with the fluid at pres4,=e tiske tL-;ial and radial loads. The shaft 4 cariies vtc-ps 3 "d 4 secured by thip nuto 5.~ The elastic elt=Dnt 6 is fitted on the shaft.betwegn the.nur4 ind the stop 3. Due to pressure of the fluid, the elenent 6 Ls compreesed thu# producing a %mr~tug clearance in the pocket4 8. When the preascro drop,& the element 6 expands forcing stops 3 said 4 Lowardr, the sleeve &u4 braking the rotation,of tho shaft. 1.3-68. as 1221789/25-27, PUSU, V.E4' et &L. Moscow InstrumentatiOn Inst.. (2.9.60) Bul. 14/18-4.69 Class 47b, Iat, C1. F 16*. 198213*90  Push~ V. E.; Shii~andvich,' Ill 'A. 56kolov, Tu. NN. z, - I- Vulfson, 1. A.; Levshunov, V, T. : Moskovsk~y Stankoinstrumentallpyy lnstitu,~  USSR 615, 217-32-813,1-015.4:612.83-3-81 GOLIKOV, S. N., SELIVANOVA, A. T. LEVSHUNOVA, M. A. Rq~AWSBVICII, P., nd Leningrad "The Mechanism of Armine Action on Conditioned. Reflexe$ Moscow, FarrakoloGiya i Toksikologiya, Vol 35, No 2, I-IrAPr 72, I)P 1-31-134 Abstract: Armine given to cats intrarnuccularly In dooma of 3-5 zrc-/k,.,, sboitons latency periods, speeds up reactions to litimuli, and Ucrearcs -gencm- 1 motor activity, while larger doses (10 mcg/kg) inhibit conditioned- reflexes. Ar-nine injected into the ri,,,_rht motor cortex through an implanted tubule in doser, of 5 mcg/kS slows down conditioned reflexes to light and soi~nd stimili and causes clonic twitches on the contralAteral side. loarger doses (20 and 50 mcjkg) cun- -or pletely inhibit conditioned reflexes,, destroy coordinated morl. activity, and cause epileptic seizures recurring for up to G months. : Conditioned reflexe-9 begin to reappear in a morith, but complete recovery requires up to a year. His- tological exwdnations of cortical slider, obtained durihC, the acute phase revealed netu-ons with ischemic degeneration ani. naurons~vith bleached cytoplasm and nuclei in the third, fourth, and fifth cortical lay*rs at and around Uie site of injection.  7!C USSR UDC 632.95 BLIZKYUK, N. K., KHOKHLOV, P. S., KVASHA, Z. N., 24AM',MTA,..L- L, LEVSKAYA,_ -G-S-, PROTASOVA, L. D., SOMTSEVA, L. M., MWYMMINA, Ye. N., itiEHAVSKIY, A., BARANIOV,Yu. I., LIBIMM, B. Ya., ZHEMCHUMIN, S. G. I'Methad of Production of Dichlorides or Dibromides of Thiophosplianic Acids or Their Bis Analog" USSR Author's Certificate No 332095, filed 19108/69, published 17104/72 (Translated from Referativnyy Zhurnal Mimiya, No 24(11), 1972, Abstract No 20591, by T. A. Belyayeva) Translation: Compounds of the formula RP(X)X2 (1) (Rztalkyl, arill, aralkyl; X-Cl or Br) ald X2P(S)A(S)PX2 (11) (&-bivalent hydrocarboi:1 radical) were pro- duced by the retaction of mono- or dihalo hydrocarbons with 5, 11 and 1'X3 'itil heating to 250-400* in an autoclave of staililestj ateel. crAtickal in the presence of catalytic quantities Of 12 Or its =POuRds. Example. A mix- ture of 0.24 mole PhCl, 0.24 g-atom S, 0.16 g-atom white 51, 35 M1 PC13 and 0-'05 9 12 is heated at 290-330' for seven hours, in an autoclava of stainless steel, the PC13 is distilled, then vacuuzn distillation is:used to separate I (R-Ph, X=Cl), yield 60%, B. T. 109-1120/3, n20D 1.6241. Similarly, I were produced (given R, X, yiold in %, B. P. in *C/mm, n2f)D): 4-c1c6114, 1/2  USSR BLIZNYUK, N. K., et al., USSR Autbor's Certificate No 332095, filed 10/03/69, published 17/04/72 C1, 53.5; 124-3/1.5-2, 1.6229; p-MeC HO Cl, 54.5, 125-7/1, 1.6120; 4FC H 6 4, CI, 72.2, 95-7/0.5, 1.6028; Ph, Br 1 91, 127-13012, 1.6850; 4-FC634, Br, 55, 135-8/1, 1.6758; PliCH2, C!, 76.4, 120-3/2, 1.6150; 3-1~'-04, C1, 108-110/1.5, 1.5908; 4-',HeC6H4CH2, Cl, 53.3, 126-9/2, 1.6035; 4-ClC6!14C'12, Cl, 61.6, 129- 133.2, m. p. 74-6', --; 2-FC04CH21 Cl, 61.6, 129-133.2, m. p. 48-9% --; 2.4-MeIC6113CR2, Cl, 47.5, 140-1.6045; 2.4-Cl',)C6H3C"2, Cl, 43.4, 147-9/2, m. p. 100-1", --. Also produced were II% (X:i--ci, AwCH2CIt2), yield 61.5%, m. p. 92-3*. 1 and II are intermediate products for the production of insecticides, acarocides, fungicides-and.herbicides. 2/2 41  L_SSK UDC 032.95 BLIZKYUK, H. K,. L-VM(~,_L,,-". HATYULURNA, YE. N. KVASIIA, Z. N. "'Procedure for obtaining Bisanilidophos,phonates or Tblophosphonites" USSR Author's Certificate No 298592, filed 23 Jan 70, published 25 May '71 (f rcm RZh-KhiEjya, No 6 (11), Jun 72, Abstract No.5,4611) Translation: Substances with the general formula A[CPI(4X)(R)UR'R"j (I It 2 alkyl, aryl', aralkyl; R' = lowest alkyl; R!'-- aryl; A ~,-- 2-vitle-nt aromatic. or Ali- phatic aroir~itic radicals; X = 0 or S) are obtained on tnteraction of di-141-alkyl- anilides of phosphonic or thlopnosphoni& acid with aromatic dioxy compounds at &-temperature of 150-180' and a pressure of 10-30 rim iAth simultaneGus distilla- tion of the 11-alkylaniline formed. The mixture of 0.01 noles of di-N-r-othylani- lide of phenylphosphanic acid and 0.005 moles of 2, i--b i1ri.- (V-oxy-pheny 1) -p rap ane (II) is heated to 170-180', PhhIffle is distilled off at a pres- sure of 20-30 rim, the residue is ground with ether Arid A' is obtairtc-d (R Ph, R1 = Ile, R" = Ph, X = 0, A - 4-C 6114C Ofe2)C6H4-41 wl th,'a yivid of 90.6% mid a decomposition temperature of 45-62% TheA is obtained analogously (.R, RI, X, A, the yield in %, and the melting point in *C are Pret;cnt41d)-. Ph, Ilep Elf S, 4(3.5-C1 C C (C(ric )(3.5-Cl C 6il )-41, 9,7.5, 140-5; Ph ICh 0, 4-Ch 'iV 2 6 2 2 2 2 2' 'fe" P"I G, 1/2  USSR BLIZNYUF,$ N. K. et al. USSR Author'n Certificate No,298592, filed 23 Jan 70, published 25 May 71 Ole ) C 11-41, 91.6, 122-6; Me, lie, Ph, S; 4-C it C(Me.)C if 4' 98.1, 781-S0; 2 6 4 6 4 6 41 Me, Me, Ph, 5, 4,4'-(3-NH2C611 3)2 so295P 185-7. A mixture of 0.02 molcs of PhC112P(O)CI2and 0.08 moles of PhNEt2 (111) are boiled' to czssation of separn- eton of EtCl, 0.01 moles of dichlorodiphehylolpropane are acIded, It is heated, simultaneously driving off the residue of III and at a pressure of 10-20 mn. The residue is ground with petroleurt ether and I ts obtained [R = PhGii 23 R' - Ett R" = Ph$ X - 0, A - CIC H C(He )C 11'C1] with -ii yielo of 97.8~ and a 6 3 1 2 6 3 melting point of 124-a". The I can be u6ed as fungicides. 2/2 44  USSR~ UDC 632.95 BLIZNYUK, N. K., LEYSMA,_r~-4S., KVASHA, Z. N., and VARSHAVSKIY, S. L., All-~Union ScienMic Research Institute of Phytopathology "&Aethod of Synthesizing 1,4-bis-(dialkyl- or dibenz~ltrithlophosphoryl)- bimzene" USSR'.Author's Certificate No 259881, filed 1 Jul 68, published 28 May 70 (ftom RZh-Khimiya, No 2, 25 Jan 71, Abstract~Ko 2N566T) Tkanslation: Compounds of formula C6H41P(S)(SR)"12_l'4 (I) (R is an un- subi3tituted or substituted alkyl or benzyl) are gynth 'O~zcd by interacting 1-,4-bis-(dic~nlorot[iiophosphoryl) benzene (II) with alkyl or benzyl halides and:H2S at 120-70% in the presence of catalytic qtiantities of organic base (C~H5N). For instance, vwo drops of C5115N are added to a mixture of 0.02 mole* of II and 0.09 mole of PhC112CI, and'H2S is bubbled, throggh at 130-40*C for-_-10-12 hours, and then for 3-4 hours at 150-60'C until 111)eration of HCI-ceases. Upon cooling, the resultant product Is compound I (R - PhC112), melting point 114-5*C (PhH), yield $0.7 percent. The folloving compounds 25 (1).are synthesized analogously (given are R, melting pbint In *C or d4 and.-n25D):. 4-ClC6H4CH 2) 137-8 (ethyl amine); 2,4-mejc? 3CH22 94-5; C7P'151 1.071- 1.5072. Compounds I can be used as inaectici es'or as additives to:liu~ricants.  USSR UDC 547.558.1.261.118.07 BLIZNYtrK N. K. LEVSKAYA 1 !3. S., and VAISHAVSN11Y, S. L., All- Union Scientific Research lns~itute of Phytopatholo~_*,y, Imoscow, Ministry of Agriculture USSR "A Flethod of Synthesizing Bis-(arylo::ychlorothiophosphoryL)-benzenes'I Moscow, Otkrytiya, Izobreteniya, Promyshlennyye Obraztsy, Tovarnyye Znaki, No 14, 1970, Author's Certificate No 268421, filed 1. Mar 68, pp 23-24 Abstract: This Author's Certificate introduces! 1. A method of synthe3izing bis-(aryloxychlorothiophosphoryl)-l~enzenes of the general formula ArO- IGAr P P CI S where Ar is an unsubstituted phenyl, or a chlora- or nitrosub- ptituted phenyl, or an unsubstituted naphtyl. As a distinguish- ing feature of the patent, 1,4-bis-(dichlorothiophosphoryl)- benzene is interacted with a substituted phanyl or. naphthyl with heating in the presence of catalytic quantities of salts of esters of polythiophosphoric or thiophosphoric actids or semiproducts of 1/2  USSR BLIZNYUK, N. X., et al., Otkrytiya, Izobreteni~ta, P. myshlennyye Obraztsy, Tovarnyye Znaki, No 14, 1970 their synthecis such as a mixture of Phosphorus pentasaLfide or pyridine pentasulfide in an organic solvent: such as xylene with subsequent isolation of the goal produpt by conventional methods. 2. The method described in (1) is distinguishe~J- by the -fact that the temperature reaches 100-2QOOC. 2/2  -26'11 USSR LTI)C.547.341. -8.07 BLIWym, N. K., T7.,. MAT-YUMNA, Ye. N., amd KVASHA,_Z.'..N.', All-Unica Sci r- Research Ens-tltute_ of--* Phytopathology, "A Method of Making Hisanilida- Phoaphonates~ or Bisanilidothiophosphoaatets" Moscow, Dtkrytiya, izabratentya,. promysh-lbanyye obra7tsy- tovarnyy~_- _znaki, No 11, Apr 71, Authar"s~ Certifi-cate-No, 298592, division, filed 23.Jan 70, published 16 Har 71, pr EIT Translation: This Author"s Certi:flcate? introduces: 1. A method,of. making bisani 11dophosphonates or htsanilidothiop~iosphonates of. t~he gelieral'I ormula NI X \Ar where R is an alkyl, aryl, or- aralkyl-,. W' ia~ a, Imier alkyl. Ar iii an Ary'.1, A is an aromatic or aroma ti c-aliphatta. hydrocarbon radical, and ): is oxygell or sulfur. Aa a- distinguishing feature; off the patent, a dt-N-alkylanilide of phosphonic or thiophosphonic. acid'is- treated with an aramatic.dihydro):17 cotapatzad with the, applIcatiorr of hear-,, fDllmied by isolation: of thetprodtict 1/2  USSR BLUNYUK, ff. K~, et al..,, Qtkrytiva~. ixo4liexenlya, proutyshlennyye.obraztsy, tova=yye zaaki, No 11,, Apx: 71,, Author.kv Certificate Xi~. 2985922 division C, 71~ 87' filed 23 Jam 70, published- 16' liar. by conventional methods.. 2'.. A madifitation of this method consists of 'heating to 3. A modi-fIcation of'this method distinguished by the fact that the process is carxied out--at.a residualpTessure of 10-30 mm. Hg with simultaneous distillation of-.'the N-alkylaniline formed in the. reaction. 4. A modification of this; mettiod distinguislied by the f act that the reaction ma s- produced by- heating- the.~ correspandin$~,phosphoni.c or thio- phosphonlic acid dichlorides w:Lth N,H-dialkylaailines toii200-2500C,is.used as the di-M-alkylanilide. of- phosphanic ar.-.thiophosphoniq; acid.  USSR BLIZNYUK, N. VARSHAVSKIY, Phytopathology, "A Method of benzenes!' 547.26'118.07 UDC: K., LEVS&tYAt,q,. S MATYUMNZA,~ ~Ye- 14. , and S. L. Ail-Union S lentific Research Xnstitute of Moscow, Ministry of Agriculture USSR Synthesizing 1,4-bis-(O-alkyl-0-aryltltiophosphoryl)- Moscow, Otkrytiya, Izobretdniya, Promyshlennyye Obraztsy,7*7Ovarnyye Znaki, No 14, 1970, Author's Certificate No 266420, filed 22 May 68, p 23 Abstract: This Author's Certificate introduces: 1. A mathod of synthesizing 1,4-bi-s-(O-alkyl-0-aryl-ti-Liophosphoryl)-bertzenes of the general formula ArQ,.p where Ar is a substituted or unsubstituted phenyl or napthyl, and R is an.alkyl. As a distinguishing feature of the patent, the appropriate 1,4-bis-(O-arylchlorothiophosphoryl)-ber,.,tc-!nes are interacted with alcohols in an solvent-, such iu; i)onzone- with the applicationcE heat in the presence of IM ol'Atarllc base nuch a6 pyridine as a catalyst, with. subsequent isolation of the ~2   USSR UDC. 632-95 N. K., PROTASOVA, L. L., RVASHAt G. S BLIZNM Z. N., LL, VS ~UYA). V'Fch"Uftftilt~e of Plant VARSHAVSKIYj S. L., and BARANOVP Yu. I.,.A--Unio4'VW9eq, Pathology- "A klethod for Preparing 1,4-Phenylene-bis-0-~Alkyl-oxy-~,2,2,-Trichloroethyl- phosphinates" USSR Author's Certificate No 255266, filed 27 Jun 68, pixblished 21t Mar 70 (from R2h-Khimiya, No 22, 25 Nov 70, Abstract No 22 116511~ F by G. V. Kuznetso7a) Translation: Phosphinates with -the general formula CCL,CI!(OH)I_I(O*0(O)G 1.14p- (0)(OR)CH(Off)CC1 (I) (R=C -C -alk. 1 6 1, y1; froin here on the ;tubstlitutes are i'1 the para-position) Je obtaineA filom the reaction of ROPHoIcA PH(O)oIl with W CH(OH) in an organic solvent medi-44n under conditibrio d itzeotroDic din- tDation 9f water. Tho original phoaphonitets are formoil by -action Of excean alcohol on CI PC 11 II)CI (II A mixture of 0.75 nole of C If C1 .1 6 IL 2$ -atan of ifi 0 1 - G~ Kr 6 lite phosj~ ru. .9 309 Pa PCI , =4 3 9 of is heat hours in a stainless steel autoclave at 340-60r'. Aft lvooli4g the exceas PG12 is driven off and 10.3 9 (63.3%) 11 is o4ained bit distMing tile resi- due, boiling point 132-3 /1, melting point 58-9 . A solut:Lon of 0.02 male of II in 30 ml of GC1h is ded at 0-5 and while beinC mi;-red to OJI mole of ab- 1/2  77777 USSR BLIZWJK, N. K., et al, USSR Author's Certificate No 25526,6, filed 27 Jun 68, published 24 Mar 70 (from RM-Khimiya, No 22, 25 Nov 70, Abstract No 22 IT653 P by G. V. Kuzn etsova) soluts MP-OH. The excess MeOll and TIM is removed under varunm (toward the end at 80 ) and 0.04 mole of GO Oif(010 and 50 ml. of H is. added to tile resi- 3 2 C6 6 due. The mixture is boiled with Dean-Stark packinguntil wattear is no longer driven off. C 6H is distilled under vacuum and I (R=.Me) obtained in the residue, yield 9g; (j-n II), melting point 146-90 The gut I are obtained in a similar fa.-hion (R, yiel.d in %,.and melting point in G~ (etborl alcohol) are given): Ht, 97j 186-7; Pr, 85, 19o-1; Bu, 61, 186-7; and iso-oflu, 66, 198-!?. can be used as intemediate products in the synthesis ~o~ physiologically tive substances. c a 22  g- G 632-95 UD USSR All-union G. S. MINA, YXI M_r-Y*A'-*r0-sCaw, ministry K. MATYMM BLIZMVK' to of pbyt~"D~Ptho ific Research Insititu scient ure USSR of Agricult lJon"Ate:31t 3.k-y1trichlorom6thYl TUOP40sP "Method of Obtaining O**A (G 07 f), 2op 2 A21 6 Gl a 1.1 018 Certificate No 2. No 19 (II)t i..-. USSR. Author Ester. Vrom WA tJ W. OUW L 6 of C~WCI 16 t absolute MeOH cont~lrdng 20 Mg he ox0 11, OR distilled The mixture is bolled 3,5 houts, t 50'I ` 6431 v added. a d 93.6 pereentpA btsin,3dp yl J~nporature and I (R aMe) iS 0 sq den. omositi% t 0 n2 salt, C2H C' N02P Lture > 300 2i~-1.5450; ]INHAC131:00 rS~ ;~00403ition tompolo,.-*d~mwe at y1old 1850; K salt# 02 the folloviog obtii Od ILrO Annlovamly 16  ITT U~SR  USSR BLIZNYUK, N. K., LEVSKAYA.-G-,j~ t KIRILIKA, L. B. I VARSHAVSKIYt S. L., All-Union Institute of Plant Pathology !1A Method for Preparing 1,4-Phonylenabinthiophoaplionic Acid Estors" 'USSR tion No 25 Author's Certifies, 26 class 1!;~~26/01 (C 07 f), RZh filed 17 Sep 0, published 25 Plar 70 (from ~~ya, No 21 (XI), 10 Nov 70, Abstract No N562 P by 1. A. Mellnlkov4) Translation: Compounds with the general for=la 0 ]1 (1) (R = iryloxy-, arylthio-, alkylthio group), acLive as pest or used as intermediates for synthesizing them, are obtained by ion of 1,4-bis-(dichlorothi~ ---!benz61 (11) with react ophosphoryl) phencls6 thiophenols, mercaptans in the presence of a catalyst at 120-190 For extuaple, a mixture of 0*01:mole o~`Tl, U,06 molo of thiophenol, 0*01 g of P 8 and 0,016 g of 05H!5D[ is heated fox 2 hours at 140-1600 until icon (gas) ceases to evolvo,:blowing dry _Ng through the reaotion mixture. ahe mixture in m1lowod luo evaporate, forming in the residue I (R - PhS), -yield 10C%O bmiling point 1'rl-40. I in prepared In a similar fashion: (R, -yield iw%, bi)fllng point 1/2   USSR UDC 632-95 BLIZNYUK, N. K., LEVSKAUS~_.&., KVASHA,1Z. N., MATYMIINA, Ye. N. IlProcedure for Obtaining Bis-thiolphosOonates" USSR Author's Certificate No 319605, filed 16 Mar 70, pliblished 17 Jan 72 (from RZh-Khimiya, No 2 (11), Feb 73, Abstract No 2N530) Translation: Fungicides with the formula A1CR2SP(O)(OR')R]2 (1) (R = alkyl, aryl, aralkyl; R' = alkyl or aryl, A - arylene) are obtained by the reaction RP(O)(OR')SR" (II) (R" = alkyl) with xylylendihalogenidu at a temperature of 140-200* in an organic solvent. As an example, a mixture of 0.05 moles of II (R - r-ClC6114, R' - R" - Me) and 0.025 grams of 1.4,-(BrCII~)2-C6Hi4 in 5 mt of xylol is boiled to coq)letion of precipitation of He4r, it is evaporated and the I (A a 1)4-C04, R - 4-ClC6H4, R'~w He) is separnted., The yield is 67.3%, the melting point 167-8*. The I is synthesized ltinalogously (R, R', yield in Z, n20D or melting point in "C are presented) A - 1,4-C04: Et, Me, 96, 1.5580; Me, Et, 97.4, 1.5330; 4-HeC041 He, 88, 160-2 (acetone); PhCHq, Me, 95.7, L~075; A = 4-MeC03-1,3: 4-CIC04, Me, 92.4, 152-4 (acetone).  l/Z 021 UNC L A I P Ito PROCESS~114G DATE-13NOV70 s TITL E--R EL ATI VE Y I ELI) OF X 6,140 Al ISO T UP ES0 U RI NGT 14 F 111 R. A L) IA X 10 N0 F6 A kIUM ---8Y 680- MEV PROTONS --U- -._.A.UTH0R-(03)-LEVSJ"%IY, L.K. t MURINi A.,Nj. I YUTLANDOVP I ~A COUNTRY J F VNFO-USSi:~ E--RADICKHI .4 1 YA 1.970 12 2) 40 9- 10 'DATE PUBLISHED -------- 1'0 ,,`.-$UBJECT- AREAS NUCLEAR SCIENCE AND TECHNOLOGY# PHY S I CS, IRgADIATION, SYNCLHk0CYCL.'-:)TR0N ~',_TOPIC TAGS--XENON ISOTOPEP BARIUMi MA~kK I ING-f40 ES TH l c r -DOCUMENT CLAS S--UNl(.LA S5 I F I ED PROXY REEL/FRAME-3005/1422 STEP ,qO-7-UR/OL66/7(J/012/oCj2/040,~/i)41.(,1 IRC ACCESS1014 NO-AP01.33374 j%C L IS S I IF rE:Q  UATE-13,NOV70 2/2 021 UNCLASSlr-IM 1, ~:CIRC 'ACCESSION NO--APOi33374 'r H ERELAIIVE ABSTRACT/EXTRACT--(U) GP-0- 43SIkACT. e I E L 11, OF XE ISOTOPES FORMED BY SYNCHROCYCLOTRON hOMBAKUMENT OF BACL SU82 W I T H. 6-30-.4EV P FOR MASc (Pk[RE130 XE EQU4LS 10 HR IS G I VEN FROO S SPECTROMETER MEASUREMENTS -AS 0.43-0.94 FOR PRIME1,24 XEt 1. 33- 134 FOR PRIP'lli-126 :XE, 1.64-1.66 ME 13 El FOK:Pklj',iEI28 XEt 1.64-1.67 FiN PRI14EI291 XE, 1,1)9-ts~14 Fi* PR 1 X: AND 0.82-0.84 FOR PRIME132 XE, I ljor Locc i: 1-17 -1 ---------  7 !j USSR UDC 669.11 669.1~8:621-785-53 '4DRYUSIMCHKINj V. I., and 4"VTANOVA, N, X Moscow Institute of Steel and Alloys "Calorizing of Iron in Pastes Using Electric Heating" Moscow, Izvestiya Vysshikh Uchebnykh Zavedeniy Chernay'a Xetallurgiya, Ho 9, 1970, Pp 137-140 Abstract: A study was made of the effect of a high rate of ele-ctric heating on the kinetics of the fo.-mation of the Structuxe and phape content of Arrro iron in calorizing iii pastes at 950-1200 C for 1-10 min. Samplea were heated by the contact method at a rate of 10 and 50 deg/sea. The paste composition (88% FeAl + 10% quartz poirder (marshallite) + 2%NH, 01 ) mzo~vs its poss ible to obtain the greatest layer thickness. For comparis9n, heatAng vas conducted in paste at a rate of 10 deg/see and in a pomder vLtxture at 0#1 deg/sec with a holding time of 15 irtin to 2 hr. Electric heating makes It posaible to intensify the process of metal saturatioa by ~~um by more than '12 times; the 120-160- m layer thickness is attaJmed at 1100 in 2-5 nin. It vu established by met- allographic and other methods that olactric he#t,~n& ~n c4orizi;ag producea a 1/2   USSR, UDC 6 20, 186: 62i 7 8 5. S 39 KIDIN, I. N., ANDRYUSHECHKIN, V. I., LE)U~OYA, N. M. apd GULYAYTEVA, V. M. Moscow Institute of Steels and Alloys "Structure and Phase Composition of the Calorized Layer'! Moscow, Nletallovedeniye i Termicheskaya 0 brabotka Metal lov, No, 2, 1971, pp 7-11 Abst~act: The structure and phase composition of the laywr forined bv thermodiffusion calorizinly, of specimens heated in a furnal.-i! at rates of 0.1 and 10'/sec, and also electrically heated at 50 and.1000 /,iec aro studied. Results are presented from metallographic sttjdiL~s, X-ray phase and microroentgenospectral local analyses, Arld measurmimt of micromardness and thermal EINIF of the layer. The dependence is establislied between the data produced by the various methods, The curve of the:cjiange in thermal EMF allows the concentration of aluminum in:the layer and.1ts lihases to be determined. The influence of electric heating on the i;tructure and phase composition of the calorizcd layer is demonstrated, Studies are performed for base specimens of Armco iron (0.05% Q and Jh5M steel (0.1% C); 4.42% Cr; 0.05% No). Mien calorizing was perfc.,ned in a Turnace from a vapor-gas phase with heating rates of 0.1 and XOO/sec at ~50-12900C with 112  USSR KIDIN, 1. N., et al., Moscow, Metaltovedeniyei Termicheskaya Obrabotka Metallov, No 2, 19711, pp 7'-11 holding from 1 minute to 8 hours, the layer formed consis~cd of two zones, an outer, brittle layer consisting of an ordered solid solhition of FeAl, containing 18-33% Al, plus; a thicker solid solution of aliAninum at thie base, going over to a superstructure of Fe Al wlien the aluainuin content 3 reaches 10"0. Electric heating preventii:formatiqn of the outer brittle zone. The entire layer consists of a adlid solution of aluminum in iron, with aluminum concentration 961y 18-20% at the surface. 2/2  UNCLASSIFIEC P REC E Fj 5 1 C, -.)AT E- I ?JL)L .f-ULFE-HEAT RESUSTANCE OF ALUMI'41ZED STEEL IN A MEDIUM (CINTAINING HYDR.01t;E% '.j-'~jfi0R-,CFESK IS, KF. I LEMNOVA, N. P. (j CC-UNTRY- CF 1,NFG--LSSR cu lZC E-~-- Z A SHCh PETAL. 19701 6(llt 56-8 ECT AREAS-MATERIALS, 4ECH.i 1,N41).t CIVIL AND PARINE; HNIG11 7 !STANT STFEL# HYGRCCEN SULFIDFv ALOVINUING, METAL PIC-, TAGS-HEAT RES[ T G PETAL SURFACE I MPR EGNIA T Mv COP ROS I CN PRE VCh'T I C3,N' f) I T T I Nc' OA IN., t C ALLCY. STEEL, STAINLESS STEEL/(U)XH18N'10r STAINLESS -STEEL, OKH13 STAINLESS :STEEL, (UJlKH8VF ALLCY STEEL9 (U)WHIM-IF STA(N(.[-~S (U)Kh5lv CFR0141UM STEEL (U)Sr3 C4RBCPI S-FEEL .'.,C,CNTRCL MARKING-NO RESTRICTIONS .:GCCUMENT CLASS--LNCLA';SIFIE[) 71) / 1241 STEP PROXY REEL/FRAME  Abstracting Service: Ref. Code: Acc. Nr* ~)04%67 414f 0 CHEMICAL ABST. HOOVrOsiftmOv of s0u=JnUed~ stock iq q nie"I e~nWning hy&ogen sulfide. Ch"I w-, Kh, I. Lev. -R (USSR). ZasAck. Mttaj. I W-8 S*Wlens Of St3 (C 0.18, Si 0,116., Mn 0.54; S Q-W8, P 0.01 and Kh5M (C 0.09-0.10, Si 0.-"Ao. -MA u~".63, 5.1, Ito 0.52-0.58, S O.OW..Q.014, P 0-012-0.02-~,,,-V) 'Steels Vre slumbiized by 2 tuethods: (1) in the n' mt. contff4 I rrOalurnli'llun 30, Al-Cr master alloy 3, Cr 3, NRICI 1%. Moos,the "a lFkqler, at 10C0* for 2-12 hr with subsequent temp"g at 7*00; (4~) in the mixt. contg. ferroaluminium 49, kaolin 49,:NH4CI 2,%.' viLh submluent isothermal annealing at W, cm; uorumli:t4mr mt 1000* and tempering at 700". T4e alutninjz~.d specimeps~ as REEL/FR&IIIE  ~0047667 -ell as those of the uncoated St3, Kh5M,IXb8VF, IKbW'VhIF, OVIiI3, and KhISSIOT steels, were plice& it the. top of,,, the diesel oil hydrorefinement 1",Ctor, at 345-,8Q*, 97--SO kg&ttiI, S concn. and at the outlet of the );&t~cxchanger at -30 kg/cm'. The coriosi~n rate i~as detd. by th 90'. 2S ens: excel 't metric 'method, All unalurviniied Speam' it the IthlS.NIOT steel were corrodo, but ~he ~uifq-cr_ of th~. ilu- id d 'c r 050n p mend 44 ~ 'it 'h in h ea b on 0~ P e th us ~c~ ui ep~ t h n'e "C e s alo 0diffefen e al n ed s n e v I I ~e 5 n a cha th of 0, _f e $ Ju in ed by e ds rr t me~ t~ e otc T t UU n ed I t tuized 0 a d P ~hn SZO or in e. he h e Unce Si"ilar t~ that or KhISNIOT steel. T. Pigtkiewiq 19791242  USSR uDc 612.15 Pil r T.XMV.:V,_A., Laboratory of Regulation of Circu.IALtionl Institute of y;,iology ~nl 1. P. Favlov, AcaderW of Sciences USSR "Evaluating Results of Direct Fleasurement of Blood Flcrr in TklstinC, Skelr:!-_-al Muscle" Leningrad, Fiziologicheskiy Zhuraal SSSR imeni 1. M. Sechenoir, No 5) 751- 758 resting gastrocnemius muscle wj.t~i blocked colla~_,_-al Abstract: A preparation of . blood supply was studied in anesthetized cats. Transection of the sciatic nerve immediately intensified the blood flow from the muscle to 3~!O to 3~L)% abov-e- the %;re - -k y original level, but the effect v~ia tranriiient. Uovever, the ploce(i rult ed! decreaned the resistance of the perfused blood vessels, =.d atter 35 to 40 -111 it was about 1QY,. be1w the original level. The oxygen content of arUrial. bloo(i was 1~L-3.6% by volume. The arteri(nrenous oxygen difference was 4.2 + 0.4%, while the en consumptian by muscle averaged 0.234� 0.022 ml/O /min. A7=parison of the 0 XYG lues revealed a significanb povitive coriv~'atjqi) betieen atygen con- Individual val sumption and the arteriovenous oxygen differpnoe (rvo.56 A net-lative torralmtioa (r --0.48 + 0-15) van detected betweeA tl* arterlaveriomo oxygen difrar- ence ana ~11~.e blooi flow. Since there ia ~little corroUtiowbetweun blood flow and oxygen con~-UZ.Vtion, the blood supply to denervated' resting! olveletal muscle appears -2ndent of thr, rate of oxygen matabolisih. -be indep ----- -- ---  P RDC~ S.S I N~, OATE-3dOCT70 UNCLASSfOlEn ftE___QN-THE, EST I 14AT I CN OF RESULTS 0F.DIRECT~8LOODFLN MEASUREMENTS IN STING SKELETAL-MUSCLE -U- UT~OR-LEVTOVv V,.A. CCUNTRY 0 FI N FO--US SR UURCE-FIZZOLOGICIiESK'AY ZHURNAL SSSR IMENI 1. M. SECHENOVAv 1970, VOL 56, Nit -5, PP,751-758 PUBLISHED---70 ~~-,SWJECT AREAS-BIOLOGICAL AND MEDICAL SCIENCES ~"._.TOPIC-TAGS-BLOOD CIRCULATIONir MEASUREMENT! MUSCLE PHYSIDLOGYv OXYGEN .."'HETABOL I SH 4 -CCNTRCL MARKING-NO RESTRICTIUNS -,.-DOCUMENT CLASS--UNCLASSIFIEO ':PROXY REEL/FRAME--.3001/0242 STEP NO--(JR/0231)/70/056/005/0'151/075.3 CIRC ACCESSION NC--AP0126018 UNC LASS 1 F I E 0  iw, 0,24;?' UNCLAS S I F I ED OROMS;'S 'ING DATE--30OCT70 ..t_TRC ACCESSION NO-AP0126018 ",;:ABSTRACTlEXTRACT--(UJ GP-0- ABSTRACT. VENOUS OUTfLOW fikJi'l RESTING _.GASTl RCCNEMILS MUSCLE IN NARCUTItED C A T S WAS INCREASfa TO ZO.? PLUS 10A I VE AD ~MINUS 29 PERCENT (14 PLUS OR MINUS SEM) JUST AFTER THE SCH~ATI 7: .~.SEEN GISSECTED (4 EXPERIMENTS) AND THEN RAPIDLY RESIGREU. Sil)m:E 35-40 LATER THE RESISTANCE OF MUSCLE VESSELS AVERAGE 8'a PLUS OA MINUS 7 L .~PER CENT OF 1NITIAL LEVEL. IN 26 CATS (1 HOUR AFTER THE NERVE SECTION) THE'MEAN VALUE OF BLOOD FLOW WAS 6.4 PLUS OR MINUS O.T ML-MIN.-100 G WET WEIGHT; 0 SUB2 CONTENT IN AKTERLAL BLCGO UVAN SLYKE) WAS Lb PLUS OR MINUS 0.6 VOL. PERCENT; AVO SUBZ DIFFERENCE WAS 4.2 P,LUS Ok MINUS 0.4 ~~_VOL. PERCENTf AND O.SU82 CONSUMPTIGN BY MUSCLE AVERAGLE 0.234 PLUS OR MINUS 0.022 ML 0 SUB2-MIN.-100 G~ COMPARISON OF IND[VIULIAL VALUES HAS -REVEALED SIGNIFICANT POSITIVE CCRRELATICN IR EQUALS 0.56 PLUS OR Ml?4US -14) BETWEEN.0 SU82 CONSUMPTION AND AVO SU8Z UIFFERIENCE. NEGATIVE 04 CORRELATZCN (R EQUALS 0.46 PLUS OR MINUS~0.1.51 BETiIEC~N AVO SV32 ~:DIFFERENCE AND BLUUD FLOW IIAS BEEN DEMONSTRATED. THE WEAKNESS OF 'RAIE fiAS BEEN SHOWN. :CORRELATION BETWEEN BLOOD FLOW AND OXYGEN METABOLIC THE BLOOD SUPPLY TO ACUTELY JECENTRALIZED RESTtNG SK LET L MUSCLE CAN HARDLY BE DEPENDENT UPON THE OXYGEN METABOLISM RATE. :':-fACILITY,! "BORATORY OF RiEGULATIONOF BLOOD CIRCULATION, 1. P. PAVOLV JNS-TITUTE OF PHYSIOLOGY, TAE ACADEMY OF SCIENCES OF THE VISSRI LENINGRAD. S 11 E7 1 _-UNCILAS ---- ---- -  :112 020 NCLASSI~FI90 --16GCt7O U`- PROC~SSM DATE ;v,T_JTLE--DEPENDENCE OF REACTIVE HYMEREMIA INTEINSITYt ON 'rHE OCCLUSION i-q~."DURATION IN SKELETAL MUSCLE -U- '.'--AUlT.HOR-(02)-K0NRADI vG.P.? LEVTOVt V*A. OUN T R YOF INFO--USSR ,0URCE--.FIZOLOGICHESKlY ZHURNAL SSSR IMENI. 1. .4. SECHENOVAv 19709 VOL 56t ~-.3', PP 366-374 ~K-QAT- E - PUB L I S14 E 0 ------- 70 13,0JECT AREAS I --8 OLOGICAL-.AND-MEDICAL.SCIEUCES OPIC TAGS--CATv HYDEREMIAv MUSCLE PHYSIOLOGY# ARTERY -,4ARKING--NO RESTRICTIONS C06CUMENT CLASS-UNCLASSIFIED iIPROXY REEL/FRAME--1982/1605 STEP ND--UP./0239/70~056/303/0366/,0371, ~--CIRC ACCESSION NO--AP0052800 UNCLASSIFIE0 --- - ---- --  2 020 UNCLASSIFIED PROCLSSIIJG OATE-1601MC C'IRC ACCESSION' NO--AP0052800 ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. VENOUS OUTFLOW FROM AN (SOLATED IN SITU GASTROCHEMIUS MUSCLE IN NARCOTIZED CATS OAS SIGPIIFI(~AKITLY INC;~EASEL) 'rHE VAL ES OF THE IN RE5PONSE TO 3 SEC DURATION OF ARTERY OCCLUSION. 0 REACTION INTENSITY: ADDITIONAL OUTFLOW AT THE M4XIMUM OF- REACTIONS I TOTAL EXCESS OF BLOOD DURING HYPEREMIAS (11) ANO THE D04TION OF HYPEREMIAS (111), WERE PRACTICALLY CONSTANT IN SPITE OF INCREMENT IN 15 TO 30 SEC. PROLONGATION FG -OCCLUSION DURATION PERIODS FROM 3 10 7, THE OCCLUSIONS TO It 2 AND 4 MIN WAS FOLLOWED BY AN INCREASE OF REACTION INTENSITY VALUES IN APPROXIMATE PROPORTION WITH THE LOGARITHM OF 01CCLUSION DUhATIOJN. AFTER THE HYPEREMIAS TO 8 AND 1:6 MIN DURATION OF OCCLUSIONS HAD BEEN ELICITED, THE ABILIrY OF MUSCLE VESSRS TO DISPLAY !..P.OST OCCLUSION HYPEREMIAS WAS REDUCEDt AND THE CONSTANCY OF REACTION N) INTENSITY VALUES AT SHORT OCCLUSIONS 13-3U SEC DURATIO, DISAPPEARED. 'GULATION OF THE BLOOD FACILITY: LAB* OF RE CIRC,ULATIONo Lo P. ,,'.."~PAVLOV'S INSTITUTE OF PHYSIOLOGYP ACA0.:SCl*,USSRv CENINGRAO.  USSR UDC 531.1 LEVY, Yu. V. "Determination of the Orientation of a Moving Object on the Rasis of its Angular Velocity" Mekhanika Tverdogo Tela, No 6, 1971, pp 7rl3. ABSTRACT: The error in determination of the orientation of a moving object resulting from in3ccuracy of detenaination of the vector of its absolute angular velocity is studied. The solution of a system of Poisson equations in variations is represented as an infinite product of 6rthogoaal matrices. The radius of convergence of this product. is determined:6 Using majorants, the error resulting fron replacement of the infinite pri)duct.with the product of a finite ntmber of its first texms is estimated. On'e limiting cuse of integration of the Poisson equations is studied.  4P0045878- Acc. Nr. Ref. Code: Rock Density at High Pressures (Abstract: 'Study oi Density of Rocks from Central Xqu?akhstarz Under High by M. P. Volarovich, A. K, Kursktyey, A. 'r ojyjS~i~, 1. S. Pressures e T ~_r_f7j I! Isics Tomashevskaya, 1. L. Tuzova and B. 1; Ura, of t adetiv of Sciences USSR, and InstittlLe of Sciences, ~he_&aqh. Ac Academv of Sciences Kazakh SSR; bio-scow'. Fizika Zemli, No. 1, 1970, pp. 46-51) The density of rocks of various composition from Central Ka2a]khszan wfs determined at high pressures in the laboratory. Rock tests were at quasihydrostittic pressures up to 15 kb. The apparatus used made it possi- ble to measure the velocities of elastic waves. The sampla, was compressed by hard-alloy pistons. Change irk volume (from dizplacetrmnt~ of the piston) was determined simultaneously with measurements of the velocity of ~ongi- tudinal waves. Change in density at different presitures was computed using the~forvula I V/V JL Reel/Frame  7 _7~` AP0045879 where PO ir, the initial density of the sample in g/cml., eXVIV is the volume decrement. Change in density was determined with an error of about.5,percent. Samples were selected along twr. deep-seisnic sounding profiles. Under the applied pressure density of all rocks increased. Density changes were greatest in the initial phase to 4 kb. Later the changes became less and the density-pressure curves flattened out. The greatest density changes were observed in samples of ancient metamorphosed rocks: schists, gneisses and porphyroida of more acidic composition for which the density changes at 15 kb attain 3.5 percent.~ Ihe density of I"Ni granites also changes rather sharply and. increases continue to 15 kb. Relative density changes are dependent on initial density: the lesser the density at atmospheric pressure, the greater is thi-a change when pressure is applied. The maximum changes in density for rocks of acidic composition are evidently caused by their greater inhamogenaity than for rocks of basic composition. , Acidic rocks are also poorly preserved. Defects in the rock, largely microfissures, close under pressure and density at the attained pressures approaches an identical value for rocks of similar composition. For rocks of basic and ultrabasic composition the density chang* at pressures up to 15 kb doas not exceed 2 percwnt, that is, the compressibility of rocks of acidic composition is greaA.ur thun for basic 19780903  AP0045878 rocks by approximately a factor of 1.5. Density is di!!pendent primarily on chemical and mineralogical composition. Differentiation of rockc by densi- ty corresponds to their basicity. The density of sawlstones at- high pres- sures approaches the density of granodivrites, Tuff-(Jiori~(!4,; ar-proach the density of dicrites, The lensir-y of eclogites from no-r;:he-.n KazalkhstarA is less than the density of eclogites from other regions. rhe low density of eclogites in northern Kazak:istan can be attributed 't0 Lho fact that they contain quartz (up to 15-20 percent). The results of ~3tudies of rock densities at high pressures can be used in the geological interpretation of geophysical data. The authors used such data in construe-ting a density cross section of the crust in central Kazakhstan. 19780904  M, USSR UDC 8. 74 TYRSA, V. YE., DYUNYASREV, V. V., KIRICHENKO, N. P., LEMIN, V. M. , ROMMOVA, A. G. "Analysis of the Accuracy of Analog-to-Digital Transformation with Automatic Exclusion of Systematic Errors" PriboEy i sistemy avtomatiki. Resp. mezhved. temat. nauch.-tekhn. sb. (Auto- mation Instruments and Systems. Republic Interdeparcmenteil Thematic Scientific and Technical Collection), 1972, vyp. 24, pp 103-107 (frou Rzh-Kibernetika, No 12,.Dec 72, Abstract No 12V452) -to-digital transforma- Translation: A study was made of the method of analog I tion which can be realized in information-measuring devices. Fbr a significant reduction (exclusion) of systematic measurement errors, nn info.Tmation char-nel is introduced into the block diagram of the converter which pervLtts the code of a standard value in its physical essence an adequate uoknown, to be received. On the basis of the analysis of the accuracy of the propptied method of analog- digital transformation, recommendations are!made for selection of the optimal ratio of the unknown and the standard variables,  E 40 .0- -f-g. 44 09 %ea Akr- -S TKI GLORIA FitIDSLE)e JIF PIA?,.41K, 114 Al; -.VZ;TZ-;U1t, K=IL1.14. F. P. qtX v -L cA%2tr-- ant ilia~=mr! Im IhIls varer. Tile 9retillra of-LU-) jylito-m 'J~ "ICAlt Art eMaCU3tritted. and the k~dblr. TtqU1YVVtnt5 On the CLCULIOr. of Lhe Ktfl.t ',N.r~ume Titotj A,,t,,%LlL%C CwLi.j System or tat let d. This !Ise perelitt-d entab"'Inuent a- the theoretical prinelples of tionat of optimal l"14-on-Ing 4rd the creatiusi of a proce-jural bjav ter tile dft"1oPvwft~ of ~ Ott of te 'els. ftlaorith-i antl p.od..... In the UML sentral stateucat. tile plancting prot)las to forum,lated am flocivir tne izoat advanta2sious taw at isatim of~ viv, ccarinatic: ityatals in a rvrt" of the phase-vVete d0trind by the gtvtrn rtniourcns. It to Proposed that the plomilim pr,,41e. In the zonernA qprst~-Pwnt t~q stud'ed bY mearis of a mdal of the co"Oultitig tile exclt~tiun lit ordcr t-, %;Mu.4%,j Vic 1)e";jvjqr ilt tne ac.nmt. ,~v rtpor,. zs~~t,41rg 4 doscri~,tion of the awilelm and algort rl.m of .!a 1 - id4v PIP-,114nx q., tl,v flv*,t derstioa. Thc. F;eaeral PTCUIPM of Caluo'lar pl-.- t :ir art, ntutitrO. arid #aeie nev ide3i nt Its i"rovement are advanced, in par- ..cu~d:. - -e basis of adartiw aurvr~;:- 'V10 ~tllOdfi of k1#031sting cill,idi,r of ukn~ are iet of olj~tlrith~ anu progriizs for calculating tile cal~,ndar tic-dui, of tiie fleet ci a computer Lit dci,crLbed. It coMrlA,n Oro ?vza~s;tna tat mqtxzt~ -.or fritipt trzaspol;t operations and forallitioi, of All poz~.olv of-cti=s of 1. -ure acliectco for movement of the ships; formation of all possible movestent *chase& for each ship; 21  USSR UDC: 621.315.3 U, L. G. VAKHRV*~YEV, V. 1. , LEYPI10VA, S. V. FARMAKOVSKIY, B. V. , AFUND, KRASIK, N. Ya., FIRSOV, A. M. "Thermoresistive Cast Micrawires in Glass Insu tion" Klektron. tekhnika. Nauchno-tekhn. sb. Radioko=onent-;~ (Mlectronic Technoloa.. Scientific and Technical Collection. Radio Components), 1970, vyp. 1, T)p 77-82 (from RZh-Radiotekhnika, No 5, May 71, Abstract No ','-V416) Translation: The authors Dresent the technological propO-~rties of thermo- 'resistive alloys end the results of an investigation of the properties of micravires. made from resistive alloy based on nickel wit4h a tarap~erature coef- _,()-3%/deg. Fesurag. ficient of resistance of (5-6)  PEW" 577 -1/2 009 PR06SSjNGi DATE--04DEC70 UNCLASSI FTE01 E T-ITLE--DETERM I NAT I ON OF PYROMELLITIC ACID -U- AUTHOR -I 03)-VAYL, YE. I., BFJRI SENKOt L.A., ~LEYBA, V,Soi 'COUNTRY OF tNFO--USSR 264,758 '8FERENCE -0TKR YTIYAs DBR AZTSY# TOVA9 NYE ZNAKI, 1970 IZOORET*t PROM, E PUBLISHED--03MAR70 SUBJECT AREAS--CHEMISTRY -PYROMELLITIC ACID* CHEMICAL 'PATENT, PorENTIO141-TRIC TITPATION, TOPIC TAGS _~~MERCURY COMPOUND ,:-'.,.CONTROL MARKING--NO RESTRICTIONS DOCUMENT CLASS---LINCLASSIFIED OROXY REEL/FRAME--3007/065Z STEP NQ--.Llit/0482/70/00(~/000/000010000 ~CIRC ACCESSION NO--AA0136286 ui LASSIFIE   Pharricol )nA t6k(eto'lopy I USSR ui)c 615-214-3 KHOLODOV, L. Ye., TASHUNTSM, AL I TISEPLER, R. IMCKrUM, L. F., SHEMMIEVA, S. I., 1EYBEL1140 F. Ya., VOIZUKA, -0. IT., GOROIETSKIY .~ 44--" C L. Sh., and PETROVA, N. A., XTMdn10n'M?jMoa1 and Pharmaceuti al Institute imeni S. Ordzhonikidze,, Moscow "Sydnocarb, a New Central Nervous System Stimulant" Moscow, Kilimiko-Farmatsevticheskiy Zhurnal, '.To 1, 197-3, u 50-52 Abstract: The recently developed heterocyclic compound sydnocarb N-phenyl- carbamoYl-3-( )13 -phenylisop-ropyl) sydnonomine, C181HI&N402 -- prod:aceJ. T.-arked motor excitation in mice, rats, dogs, and cats, increased the frequency and decreased the amplitude of electrical potentials., shortuned tU~ latont Tieriod of conditioned avoidance reflexes, and redvced the duration of the somnifaciei,-t action of hexobaeoital. It did not depress monamine oxidase activity, affect arterial pressure, or cause morphological changes in the viscera or peripheral blood. Administered to persons with various neurological. and mental diseabses (average dose 10 to 25 mg) characterized by asthenia, adynamic, and apathic disorders, sydnocarb had a pronounced stinulatory effect (excit.,eding that of amphetamine without inducing euphoria or motor exc-iterent, tachycardia, elevated blood pressure, or other peripheral changes. No sig-no of -physical or 1/2   614 Pk'&ESS' UNCLASST I ED ING [)ATE--23nCT70 r.ITLE-_CO.%lPARISO!,l OF THE RESULTS OF BACTERIOLOGICAL ANALYSIS OF THE URINE :-AND URINARY CONCREMENTS IN PATIENTS WITH tTONE.S OF THE URINARY BLADOER -";.,~.~-AUTHOR-(03)-SUKHODOLSKAYAP A.Yr-., LEYBEI_vl~S,Aot 00BROVOKSKAYAP L.1, OF' INFO--USSR I NEFROLOGIYA, 19707 NP 3p PP 19-2t ------- 70 DATE PUBLISHED :SUBJECT AREAS--BIOLOGICAL AND MEDICAL SCIENCES TAGS--KIDNEY DISEASE, STONEt MICROSTOLOGYP DRU~; TRE,%TMENT MARKING--&'O RESTRICTIONS -,DOCUMENT CLASS--U.NCLASSIFIED ~PROXY REEL/F-RAME--1997/1998 CIRC ACCESSION N0--AP0120641 STEP NO--UR/Oli0l)/70/1)00/1)03/0019/00,?l  2/2 014~ UNCLASSIFIED PRI)CESSING DATE--23OCT70 CIRC ACCESSION NG--AP0120641 ~.A5STKRACT/EXTRACT-(U) GP-0- ABSTRACT. THE AUTHORS l,t'34PARED THE RESULTS _7 OF BACTERIOLOGICAL ANALYSIS OF THE URINE AND U-11NAilY COINCREMENTS IN 70 PATIENTS IN fifi(IM ELECrRQHYDRAULIC CYSTOLITHOTRIPSY: WAS CARkIEO OJT. THE MICROBES FOUND IN THE URINE AND 1.14 THE, URJNARY~ r_G.'-XR&'4cr,4TS FAILED TO COINCIDE IN 57PERCENT OF THE PATIENTS., THE AUTHORS ATTRIBUTE THIS TO Rom HE -THE FACT THAr DURING CRUSHIJIG OF THE STONES PATHl~!;.v_NjC MICROaES Fm-T STONES OR THE WALLS OF THE URINARY BLADDER GET INTO THE.- URINE AND t3~_-GTN -TO MULTIPLY R4PIDLY. THE RESULTS OF 3ACTERIOLOGMAL EXAmiporioN OF THE URINE AND STONES IN THE PATIENTS WITH 114FECTED STONIES OF THE URINARY BLADDER,-CAN DIFFER DUE TO PECULIARITIES 01. THE PROTECTIVE PkOPERTIES OF THE MACROORGANISM, ANTIBACTERIAL TREATMENT' APPLIEDry SEL.ECTION OF MORE RESISTANT BACTERIAL SPECIESY AND ALSO MAY BE ASSOCIATED WITH BACTERIUCINOG'ENIA. FACILITY: KIEV. N-1 IOSTITUT UROLOGII. H-1Y  USSR UDC 517.9 LEYBMQ.M3MM&ft spectral Expansions of Transformations of Baundnry~value Problem Systems" MOSCOW, Trixdx Moskovskogo Matemmticheskogo Obsh,~,hestva, Vol 25, 1971, I5-5b Abstract: The transfonaations of boundary value probloms, origi- nated b the author and introduced in 1966, are defi-ned as the fundamental tool for solving the inverse problem of spoctra-1 'Ma- lysis and replacing the Volterra transformations,~which do not exist for n',,.2. This paper develops a special mejthod of spectral expansions providing a procedure for reconBtructing a Sy3tem of boundary val:ae problems from its spectral data. iThe xictation Used in this paler is derived from the notation originated in the pi- oneer pa r of 1966 by the same author and publi.Oied ~n the came journal rVICI. 15, pp 70-144),,bearing the title:10bratnaya zadacha spektrallnogo anali a obyknovennykh differentsialInykh operatorov 112  LEYBENZON, Z. L., Trudy Moskovskogo Matematicheskogo Obshchestva, Vol 25, 1971, PP 15-56 vysshikh poryadkov" (Inverse Spectral Analysis-for Ordinary Dif- ferential Operators of Higher Order). The present paper is divided into four sections: the first is essentially a summary of the earlier paper; the second introduces some basic quantities and definitions; ~he third ex-alainsthe spectral expiinsion of the transformations from one system to another and gives.the relation- ships between the two systems; the fourth demonstrates how a sys- tem with a simple spectrum can be restored from its eigenvalues and weight numbers. The author expresses his deep appreciation to V. A. Marchenko for his valuable;:suggestions' 212  USSR UDG 620.171.5 N. and G1JSAKOV, B. F., All-Union.Scientific Kasearch Institute of cELne Building, Moscow "The.Production of Thin-Walled Models of' Cylindrical Shells From Optically Active Materials" Moscow, Zavodskava Laboratoriya, No 5, 1972, 610 -Union Ilicientific Research Abstract: A method is being developed at the All Institute of Chemical Machine Building, by means of which. cylindrical shells of any diameter between 70 and 140 mm, with a wall of any givun thick'ness greater than 0.5 um, cart be obtained by the use of sevexal revolving mold,,:;. Interchangeable molds 70, 90, 120, and 140:mm in diameter are used. if a shell is required with an external dimneter differing frtln those enumeratej, an intermediate cylinder with the assigned internal diamitxer is cast frr,,,D a composition oa the basis of resin ED-6 in the. next largeo t nold, is coated with a separating composition without removal from the rai~jld, and is Chen used as a mo1l for obtaining the required rittall. Modelsivith iitrror-like inner. and outer rurfaces are obtained. Deviation from t6p nominal with respect to the diameter is 0.05-0.08 anti d6viations vith re!~Dect to t"he wall thickness, are 0.0-1-0-015 -jr- 2 refereaces in the forn of a f0atnot.,Q.  622 UNCLASSIF1W P116CESSING rJATE--090CT70 '-JITLE-HISTOCHEMICAL CHARACTERIZATION OVTHE DEHYDRU65ENASE ACTIVITY IN THE IN- PSORIASIS -U- ,i: UTHOR-LEYBMANt.' I*G. OUN T RY OF INFO---USSR OURCE--AKKH. PATOL. 1970t 3211)t 76-81 S ,,;.,,:PATE PUBL ISHEO----70 -SUBJECT AREAS--tilOLOGICAL AND MEDICAL SCIENCES ~~,TUPIC TAGS-HISTOCHEMISTRY9 SKIN DISEASE, DEHYDROGENASE9 CARBUHYDRATE, GLUCOSE CONTROL MARKING--NO RESTRICTIONS "DUCUMENT CLASS--UNCLASSIFIfiD ~!.'PROXY RLEL/FRAME--1996/0473 STEP NO--Uli/9056/10/0321(101/0016/0081 CIRC ACCESSION NU--AP0117709 f  212 022 UNCLASSIFIED PkbCESSING DATE--090CT70 -CIRC ACCESSION NU--AP011.7709 :.:~A8STRACT/EXTRACl'--(U) GP-0- ABSTRACT. THE EPIDERMI$ OF PSORIATIC FOCI IN 35 PATIENTS WitS STUOIED HISTOCHEiM., INTENSIFICATION OF THE PE OSE CYCLE OF CARBOHYDRATE OXIDN. WAS ObSD. rN THE UPPER SfRATA OF -rHE MALPIGHIAN LAYER; SUCCINIC DEHYDROGENASE WAS. INCOASED IN TIil:-'1vEEPEST STRATA OF THE LPIDERMISt ESP. IN THE PROGRESSIVE $TAGE OR P$ORIA$IS. INCREASED GLUCOSE 6,PHOSPHATE DEHYDRUGENASE* NADP-DIAPHORASI:i AND IdADP-DEPENDENT ISOCITRIC. 0EHLIDROGE14ASE INDICATED, A DISTURBANCE OF, SYNrHETIC PROCESSES ZONES [If, KEKATOGENESIS MPSORIATM-FOU, FACILITY: NAUCH..---~ ISS LED., KOZHNO-VENEROL. INST*9 "INSKj USSR.: Air l-& ccllt ulfla-  IUM 669-715:669+046-54/55 STULITSOV, 1'. N. and IMV, -JR, M. "The Effectiveness of Various Methods for Refining Alumir= and its Alloys', Hoscowt Tvvetrqye Metallyt No 9, Sep 738 pp 454fg Abstract: The authors review and evaluate various methods for refining aluminum and its allo3rso Various methods are in current use in refining aLluminum arid its aLloys from I%lrdrogen and nonmetallic inclusioass These mothods include: the absorp- tion typet processing the melt with chlorides, and purging with active and inert gasese The study shows that the meth6d of purging the melt.with inert gas through porous ceramic elements is most effective from the physico-Ichemical point of view. 2  7-7 :Y USSR Wc 669.?15.004.82 BAZILEVSKIYp V. X., KRYLOVO A. F.0 and LEYBPY-t YU. M. ."Developing New Secondary Aluminum Alloys and Changing the Composition of Secondary Aluminum Alloys Already in Use" Moscow, Tsiretnyye Metally, No Jul 71, pp 31-53 Abstracti FrincIpal txends in improving the propertiem of alloys prepared from scrap m3tal and qaste products are discussed, Thoy Inoltyle the refineingnt of the chemitml composition of existing secondary alloys, application of heat treatment, ani additional alloying with specific adjaixtures and modification. On the basis of works conducted by the Ciprotsvetnetobrabotka State Scientific Research ani PlazuUng Institute of Alloys and Nonferrous Retal Processing, ,new secondary aluminum fourAry cast alloys with higher inechazical properties than those of existing alloys have been developed. The!tr coatent of admixtmres is not lowex than the admissible content of secondary alloys according to the All-Union State Standard. Compositions and propezt~es of some improved secondary aluminum alloys or their now compositioas arwi,presented. Two tables,, thirteen biblio, refs.  USSR 'no 6,1!1. z82.002 1086.8) KOCHKAREV, G.V., KRACHKOVSKIY) 0.1.1 B2 Wit ClfArRNYY, YU.S., PETR&KOVSYIY, YA.SH., SIDC.R-91KO, L.D +0~.OGLADCEENKO, V.P.j ~VM V, RAIIM YU A. 'Claissif ie:v Cf Semiconductor Devioes" USSR Author's Certificate No 296180, filed 14 July 156~lp published 18 May IR71 (from -Elektronika i yeye primane-nlize-j No 5, Marell 1972, kbstruct NO ~B557) Translation-. The classifier of semiconductor devices (principally tranaiators) contains a unit luzel) for connection of's deirice to the meanuring equipment the measuring equipment, logical equipment, machaniam for marking the pol2rity, and a unit for allocation of the moavared devices Into m coO.ainor; it has a rotating tube connacted with an electric. motors With,the obfis,.-t of increasing the speed or operation and the efficiemy of -the alazairl-irp the unit for coniie*ction, made in the form of a revolving roveruible 411vV, Dupporting two blocks [kolodkaj for thc dovices, dien-atrically located. and oonnacted. by a flexibl- braid [zh6gut] with the measuring, device, and tutc, withdrawing davicea, moturded. an the- axis of thq blocka, is partially arrariod inLilds a ruidin~~ hoppar, connected with the rotating tube of the UmLt fo~ allct~;ation' and under the disk of the unit for connection, in a groove of the,laterul Erarface of the honner, the mechanism for marking the polarity is located..  USSR UDC: 62-55 YEMEL YANOV, S. V. , UTKIN, V. I., ITKIS, Yu. F.,, and "Centralized Control of a Comloination of Dynami'4 Objects" USSR Author's Certificate Uo. 282429,, filed 10 JOept 631, publinhed 17 Feb 71 (from RZ]i-Avtoiratika. telemekhanika i~i-4,yelUslitelInaya -tekhnike, 11o. 12, 1971t AMnact No.1,12a53P),', I Translation: The invention may be used in autom4tic control of a combinatiOrL of dynamic objects with varying characteristics: for example, for simultaneous control of the tetaper6ture iii several zones of multisectional heaters and seaponing, ovens. The knoim J. method of centralized control of a combination of dynamic objects uses a central regulator o~ f the relay type idiiah is, in turn, con- nected to each of the controlled objects. ~In this mr:,thod, how- ever, the sequence of connections of the contro,4ed objects to the central regulator is inefficient from tllae viewpoint of rapid ae- tion. The proposed method differs in that, at et:tch rioment of tiize, control iz exerted only over those objects in which a compa-rison signal (formed from a siSnal representing the difference between the object and the de.rivatives of the signal or the Wier coor- ,atest value of' dinates of -the object replacing them) has the gre- -112   013 4G DAT L---27iJV 7 0 UNCLASSI FlEb PROCESS11 ~~'.JJTLE-EXOTHERMIC MIXTURE FOR STEEL POURING~ -U- -AUTHOA-(05)-ASTR0Vt YE.I.t KLIPOVi A.D.o KONY SIIEV V~[., LEYBOVIClit P.' --USSR C CUNT R Y: OF INFO '_-SOURCE--UiS.S.R. 262,329 ~-,.-,.~REFERENCE_-JTKRYT1.YA, lZ03RET., PROM. OBRAZTSY, TOVA1611YE ZNAK i1970 41(6) .-.-b"ATE. PUBL ISHED-216JAN70 -.-~:S_UBJFCT AREA S--MATERl ALS ~TOPIC TAGS-METALLURGIC PATENT, MErALLURGIC PLANT# rX.OTHERM[C PROCESS, -SLAG9 FOUINDRY 'TECHNOLOGY, STEEL MANUFACTURE PROCES141 FL'~UORITE ~~-"CONTROL MARKING-NO RESTRICTIONS DOCUMENT CLASS--UNCLASSIFIED --3001/1462 --UR/0482/7(1/000./C)00/0000/0()00 PROXY REEL/FRAM& STEP NO 'IC H  _"-2/2 013 UNCLASS1 F[Ep PRI)CESSING DATE-27NOV70 _,CIRC ACCESSION i --AA0126993 N 0 ~,mASSTRACUEXTR ACT-- f U) GP-('j- ABSTRACT, AN EXOTHE-110-, MIXT., FOR PRE11G. IG OF STEELt HE FOLLOVI, "LEll SLAG DURING THE CASTIN HAS T NG COMM. SILICOCAl-Ci CAt(NU SOB3) SUH2 OR KNO SUB3 5-15p FE CINDI~-R 20,-5, A SU13STANCE CONTG. 9 OXIDES 1-10 WT. PERCENT, AND FLUQRITE THE;, REMA I NDER. :FACILITY: GORKOVSKIY METALL.URGICHESKIY,,LAVOD. i -JE h- -i1  USSR nic 547.26,118 YS YU. L., D%!TDAU, 1-1. A., T(A~4, WiRTYNOV, I. V., SALTYKCVA, L. 1. "Reaction of 0-Imino-O,O-Dialkylnhosphites with r,