SCIENTIFIC ABSTRACT SOMIN, I.N. - SOMINSKIY, M.S.

SOMIN,_j.N,; KUZNETSOV, S.G. Ultraviolet spectra of hydroxy-and dibydroxybenzils. Zhur. ob. khim. 31 no.4:1083-1085 Ap 161. (MIRA 11,:4) 1. Institut toksikologii. Akademil. meditsinskikh nauk SSSR. (Benzil--Spectra)  h-MIC-TSOV, S.G.; SCRIN, I.N. Diethylaminoethyl esters of hydroxy- and methmybenzilic acid. Zhur.ob.khim. 32 no.11:3783-3788 N 162. (MIRA 15:11) (Benzilic acid)  SOMIN,-.1.11. . - _ _. -"-. Hydroxy-aubstituted diphenylacetie acids. Zhur.ob.khim. 32 nooll:3788-3790 N 162. (HIRA 15:11) (Glycolic a-.id)-. f "  IOM,, D.V.; SOMIN, I.N. - I I, Synthesis of 1 1-diphen~,:L-w-dialkylamino-2-alkanon,-I-ol. ZhtLr.r)b, khim. 34 no.2:@03-704 ' 164. (MIRA 170)  -, - I- .), :-IlL , -,. @'. ; . : v , A. "'. i@enzim.iaazo2z@ In zht@r. ("'.. khim. 31, no.9:3131 S It-4. (.", --, , -, -: . 2 -, @,  PET)@O'Vl A-S , l-'G.MiN., IA., KMETSOV, S.Gr. Rjack@on cf chloral hyd;-atp and hydn' xy I am I ne ki i tti a, @ mts anillflel, Pa r @', i. .Zhur. org, khim. i ro.8. II."A; -I I @41,1 4 4- (MJRA I IJ I. Institut. toje3tkolugl@i flitilaterstva zdravrokhran(..niya L't-ningrad. p ot)ff , i tu:4 d Ag lbr '0 1P.;II) @  SOMIlp I.N.; UrLNETSOV, S.G. Oximes of@-4'-dimcthylaminoalkanals and their derivatives. Zhur. org. khim. 1 no.ll:lc/73-1976 N 165. (MIRA 18:12) 1. Submitted November 12, 1964.  so I V)Zo AUTHOR Somin L Teacher of Chemistry at the School INr 4 1:-_1vn1 ' Vi tfel it i Mler s n nn a eyev TITLI@: Our "Elementarium" (liash elementariy) _2_(4 PERIODICAL: lp IT Tekhnika molodezhi, 1958 or 9, pp 22 - 22 (USSF) ABSTRACT: Ar, early as 1935 A.Ye.Ferman, Member, Academy of Sc_i-_-:-1ces, USSR, proposed to erect a monument for D.I.Mendeleyev. who discovered the periodic 3yotem of elements, at the All-Union Science and Industry Fair. It should take the shape of a conical multi-storey building. The rooms in this buildAine should be laid out in a spiral arrangement. Each of the rooms should exhibit the total number of natural compounds of one of the elements from the per-ILod-ic system. This proposal was never realized. The school in Vinnitsa, which was given the name of D.I.1alendeleyev, runs a school club of cihe:@:ical a:.-.ateiira. V.Zakharerkc, L. Kuznetsova, A.LloskV4 tin, I.Morozov, and ot*-,cr-., who are members of this club decided to build the model of such an "elementariun" for their school mureum honorin@; th- name of that outstrnndin6 scientist. 'More tnan 80 meml.ers Card 1/3 of the school club assisted in tiewor`. The "elementarium"  Our "Elementariumor SOV129-58-9-1131.131 was built in the model work shop. Young electricians installed a three-phase power supply to the model. The cells of the "elementarium" are connected in stich a manner as to effect an automatic illumination of just one group of cells corresponding to one period of the periodic system, if the model is rotated. The members of the geQchemical section of the ClUb collected mine--ral This proved to be the moot dIfficult tnok. afj arily a limited number of minerals is found in the district of Vinnitsa. Therefore other schools were asked to collaborate and to help nith exchanging minerala. Th'- practical importance of the "elementarium" is that it provides a means of showing the richness of the country to .1 q the students. Moreover elements are presented not only @s c. symbol but as integral part of a mineral. The "elementaritum" is a great help for students in understanding nature and gives them valuable practical working experience, The geochemical section of t;-e club continues to clas3ify the arriving mineralogical material. It has already arraar.@.f!d a collection of more than 1000 specimens. A num@er of Card 2/3 copies of the lables were handed over to t','.e Council of  Our "Elementarium" ., 7 S J 1`1/2 9 - '5 6 - -9 - I @ '-, 0 National Economy to give national economy a wider access to the natural resources in the district of Vinnitua, There is 1 figure. Card 3/3  SCMIN, L.Te. (Vinnitsa, USSR)- val industry museum in sobool. KhIm. v shkols 13 no.3:63-71 W-je 158, (Nducation-Exhibitions and museums) (NIM 1115) (Chemical industries-kchibitions)  SOMIN. L.Ye.(g. Vinnitea, USSR) "Geochomical alementarium.ft rhim. v shkole 13 no.6:57-62 10 1 58. (Chemical elements) (Geochomistry) (WRA M12)  SOMIV L Ye , uchitell t�LL-=L=-P Industrial chemistry periodic table. Khim. v shkole 16 no.5: 52-58 5-0 '61- (MM, 14:9) 1. Srednyaya shkola Vo.4, Vinnitsap USSR. (Chemistryp Technical)  LOMIZE, M.G.; SOMIN,--t @L- Early manifestations of the Jurassic volcanism in the northwestern Caucasus. Vest.Mosk.un.Ser.4: Geol. 17 no.6:44-54 N-D 162. (MIRA 16:1:, 1. Kafedra dinaxicheBkoy geologil Moskovekogo gosudaretvormogo universitata. (Caucasus, Northern-Rocks, Igneous)  Hr-, C V " A ..L . , :7 i ,.'-' N'., M.." c c! w: or,@cr--, ty -IP --viaret. ' Ta (Ce:-Aral Ca,-, zao-,,@a , &-@;. er !Lras8,- I d' 0 i.@-,k I. A N I I.? no. 1@ PI -A 4 N 164. (@CRA 1?112) i. . '@c -), -,-g I -te a kily -Ir, a,! ',@i ', A V -:lSS-R .Ilredstavleno akadomlkom .l.. ,  ,;OAT t U-, 1 3 srs orrx-, r.Y, a r at r I s ',, Jo and 1.1'a tec,@onl@@! of Ue cryarallinc core tn tre nein range of the Greater Oetxaius. Gpo,.ekl.,,,,-!ka no.1,61-76 1Ajr-Je 165.  zv S, v n - tll@  AKOPOV, A.; 'MIGARINW, I.; TRVJlOVSYIY, I.. NECHAYEV, M.; SEFINOV, V.; VINNIK, X.1 S@MIN, V, Let us wk-lc.,)mp the 22d ConpTpss if t@,e CIPSU with excellent achieve- ments. Fin. SSSR 22 noao:49-59 0 l61. MHA 14:9) 1. Zamestitel' nac@al'nika Vosgorfinupravleniya (for Akopov). 2. Zamestitel' vaveduyushchep LeninfrradEkim oblfinotdelom (for TuFarinov). 3. llachal'nik byud7hetnogo upravleniya Ministerstva finnnsov Ka7akbskoy SSR (for Timanovskiv). 4. Zaveduyushchiy Ul'yanovskim oblfinotdplom (for Nec@a ev). 5. ZaveduyusYcMy Volpodskim oblfinotdelom (for SpmenoN (Finance) (Taxation) (Bezhetsk District-Insurance)  f OM%[M) V . I . an,.,-@ PTl')f',FlFNYY, 1, . A - "A stand for ralangeurs when cetemmining the cholinesterase activity --f blood accordiriF: 'vn the method of' A. A. Pilrovskiy" - p. 90 Voyerino Meditsinskiy Zhurnal, No. 3, 1")62  OYVIN, I.A.; OYVIh, V.I.; SOMIN,_I.L. Filectrophoretic Pnalysis of rabbit serum following Drotbin oensibilizRtion. Vop.med.khim. 3:229-237 '51. (mim 11:4) 1. Pntofiziologicheakly otdel @SentrAllnogo kozhno4venerologichest-.ogo InstitiAs Hinisterstva zdrnvookhrnneniya SSSR, Moskva. (?MCTROPHORESIS) (SERUM)  --vthe-4-0-anmilve a USHOU ig reactions In aperimantal atudles. A. A. Po=kff an V. 1. SMIG - (Central Set. Research Expd. Inst. Mllitwy RW.-.1M cow). Arlh. Pdd. 18, Ko. 2. 91-9(1958)@A method Is dercr!W tot the quant. evalu4tiun of cha"Scs 10 the Per- mcability o( capIlLirivs which Is bused an measuring the in- tensity of finorescence of protein complexes that enter Into tissue spaces fit the course of u developing Infl.'"ematowy process. Lt. S. Leville -A  PISIMMOM, V.A.; SOKINI,Y.I. . . Now method for fastening the support plate of the recorditig arm to the rubber diaphragm of a Marey tambouro Iab.delo 4 no.2:62 Kr-Ap 158. (RICSPIROWTER) (MIRA ll-.4)  BONIN, V.I.; PISIMMMYY. VA. (biantitative evaluation of the absorption of medicinal aerosols during inspiration. Phrm.1 toks. 22 no.6t539-544 N-D 159. (MIn 13-5) (AXROSOLS pharmacol.) (USPIRATION)  SOMIN, V.1.,- PISIMMYY, V.A. Simple method for measuring the particles of the aerosols of fluids. Vocn.-med. zhw. no.5:69-7lify 161. (MI RA 14: 8) (AERMOIS)  3014114) V.,L- FISIMMMY, V.A. Atomizer for producing and r:Aintaining small concentrations of volatile substances in the air. Farm. i toks. 24 n6.4:497-499 JI-Ag 161. - WRA 1419) (ATOUZATIOIT-F,QUIPMIT AND SUPPLEZ)  P1S1"N1Y$ V.A.j SOMIlij V.I. I - -1 - -.1 --- - - I I Utilization of organic silicon compounds for preparing vater-repellent surfaces. Lab. delo 8 no.2:53-55 k '62. (HIHA 15;2) kSILICON UaWIC MWOUNAi)  UGLITSKIY, V.--,.; SMIN, V.I.; M11VOSHEINP V.S. Caro for 'k-echnical p.%,jAganda tit convt;.-uctii@n vites. T'rar--; -. etrai. 13 no-10:8-9 0 163. (YIPA l718) L ,kichallnik Barraullakuy nauchnc-issledovatellskoy sutnl..,iii Orgtramntroya (f(;r Uglitskly). 2. Nachallnik Tashkentskoy stantaii Orgtranvitroya (for Frivoshoin).  SOMIN, YxI.A,P lnzh. Testing min engines of diest:L-electric power pl%nts while ircing mc@ored. Sudostroenie 29 no.10:63-69 0 163. @ICAA 16M)  SOMN, Yu. A., lnzh. Improving the deslgn of a bunch-type hammer. Sudoetroenie 28 no.10:58 0 162, (MIRA 16:1) (Rulls(Naval architecture)--Xleaning)  KRICHICVSKAYA, Te.l.; MAYTINA, R.A.; SOMINA, S.I. r Role of biologically active substances of the skin in the pathogenesis of itching. Vop.med.khim. 3:114-125 151. (MIRA 11:4) 1. Biokbimicheakaye lnborAtoriyA TSentrAllnogo Vozhno-venerologicheskogo Instituta, Moskvn. (PRURITIS) (HISTAMIUR) (AMYWHOLIIIE)  -1,17"7CP V, rl .1 " @- .1 - --., - -'. (ApTictlltl@l,@! mbehin"ry; -' ' J, osrvA av, 1@@35- 510 r. r S675.K329 1. Af-rici-,2tiral machinery. v,rnual) Peiellad z rosiislkoi. Klipi-kiv, DerzBAll- (50-47575) No I. Srlr@iriich, N.G., J". alu.  SOMINICHJ N. G. Sominich, N. G. "The planning of feed shops on livestock farms," Sbornik nauch.- tekhn. rabot (Leningr. in-t mekhanizataii sel. khoz-va), V, 1948, p. 174-217. SO: U-3261 , 10 April 53, (Letopis 1zhurnal Inykh Statey, No. 12, 1949)  z14Ct-4ikd--'H, 1-@. J. Mechanization and el--ctrification of livestock far,r,; Moskva, Gas. izd-vo 3il'khoz. lit-ry, 1954. 580 p. (r-4-4iI07) 1. Farm machinery. 2. Electricity in agriculture. S760.R9S6  ii,"i, Nikol r1irorre G@ nauk; lAhV redaktor rMechanization of stockraising farms) Mel:nAnizateita zhivotao,.ui- L checkikh form, lzd. 2-oe, perer. I dop. Xookva, Goo, tzd-va Bell- khoz. ]it-rv, 1957. -543 P. M@ 10:10) (Stock and stockhrieding)  SOVINSKAYA Nina Isaakoima; TIMOFEYEVA, Ye.A., mladshiy nauchnyy so r., r .; PLDIONOVA, L.G., red.; POLUKAROVA, Ye.K., tekhn. red. (What to do if a child eats poorly) Kak bytt, eali rebenok plokho est. Moskva, Izd-vo Akad. pedagog. nauk RSFSR, 1962. 30 P. (CHILDREN-NUTRITION) (MIRA 16:5)  ralal 'n 12 'Ig 11 Alf 13 ol @Pmv IS in  510811621000101210401063 B156/B144 AUTHORSt Sklyarenko, S. 1.,_aominskaya, Z. M., Nikitina, A. A* TITLEs Powdered rhenium produced electrolytically PERIODICAL: Referativnyy zhurnal. Khimiya, no. 12, 1962t 396 abstract 12K161 (Sb. "Reniy". M., AN SSSR, 1961, ioO - 101i, TEXT: The effects of the electrolyte composition and aleatkolysis condi- tions (D c and temperature) on the cathodic current yield of He and on the quality of the electrolytic deposit are investigated. The ideal conditions-' for producing metallic Re are found to be as followeL I composition of soLution.(in g/l): KReO 50, H so 75, (NH ) so 401 1) 100 a/dm2j 0 4 2 4 4 2 4 0 temperature 75 C; cathodic current yield - 43%1 11 composition of solution (in gll)s NH 4Reo4 100, H 2so4 100, (NH4)2So 60; D 0 100 - 200 a/dm2; 0 4 tcmperature 75 C; cathodic current yield -50%. Anode Ptj cathode - Ta. The reqults of the laboratory research were verifiid in a pilot plant. [Abstraoter's notes Complete translation Card 1/1  S113716210001006106V163 A052VA101 AUTHORS: Sklyarenko, S. I., Sominskaya, Z. M., Nikitina, A. A., Lavrov, I. f. TITLEI An Investigation of possibility of electrolytic production of some rhenium alloys PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 6, 1962, 29, abstract 60222 (In collectiont "Reniy", Moscow, AN SSSR, 1961, 152 - 158) TOM The possibility Is proved of producing binary alloys of Re with Cu and Cr and also with Cr and Ni by means of aqueous solution electrolysis. The dependence of the quality and composition of the alloy on the concentration of components in electrolyte, D. and temperature of electrolyte has been studiee- Optimum conditions of producing high-quality alloy deposits are: 1. For Re-C'u alloy the bath composition (in g/1): CuS04 125, H@S04 (strong) 45, NaRe04 201); Dc = 1 - 2 a/dm2, the temperature of electrolyte 200C, Re content in the alloy 2.4% by weight; current efficiency -100%. 2. For Re-Cr alloy the bath composi- tion (in g/l) 1 KRe04 50 CrO 15 WH02S04 40, H2@04 (strong) 75; Dc - 100 a/drg the temperature of elec@rolNe 7; - 750d, Cr content in the alloy reaches 1%. Card 112  Q'/ 1 3V62/000/006/140/1,53 A057/A 10 1 j@rMA,Z,U., NikitIna, ft. A., Tylkina, M, A., Skiyarenko, T., Savitskiy, Ye. M. i 7 G@iivapie coatings with rheni=-nie:'.@,@11 , rhenium-cobalt, and rheniuri- rilekel-chromium alloys f'r-R_t-,"QICALt Referatlvnyy zhurnal, Metallurglya, no. 6, V),-0, 93, abstract 61593 (V st). "Reniy". Moscow, N4 SSSR, 1961, 209 - 213) FIT Cii- and Cr-Ni-rods were plated electrolytically with coatIr.4rs from i -alloyo., Optimimi conditions are given for the plating with the alloys Re-Ni, and Re-t.o. The galvanic coatings Re-Ni (19 - 86,1t Ni), Re-co (19 - 3X., R -Cr (up t@D 1% Cr), and coatings with the ternary alloy Re-NI-Cr were In- e @,,@Ztlgated m1croscapically: the thickness of the layer and its hardners was .".-er-mined. For the first time were obtained dense coatings with the ternary Re-NI-Cr, containing 13.3% Ni and 5.4% Cr, on Cu- and Cr-Ni base by con- -Jing the electrolysis in the following conditions. Composition of the elec- @:-)Iyto (in g/1): KRe04 50, Cr03 20, NiSO4 100, 11@-,S04 75, (NH4)2901@ 40;  -il ,anlc coatings with.. . S/137/62/ooo/Gc)6/i4o/iS3 A05VA101 : , 1C2"' tt.'Mil,@VUtUre- of the electrolyte 750C. There are 7 references. Ye. Layner notc- complete translation] r "i .11  The Second All-Un@on Conference on Phenium, _,p=--ored by the in:;@izuta of Metallurgy imcni A. A. Daykov, Academy of Sc:uncer, USSR, and the Stato Institute of Rare MetalAyas held in Moscow 19-21 November 1062. A total of 335 representatives from 83 scientific institutions and industrial estab- lishmcnts participated. Among the reports presented were the following: autoclave extraction of Re from Cu concentrates (A. P. Zelikman and A. A. Peredereyev); Re extraction from the gaseous ph as 6 .(V. P. Savrayev and N. L. Peysakhov); recovery of Re by sorption and Ion In- terch,ange (V. 1. Bibikova. V. V. Illichenko, K B. Lebedev, 0. Sh. Tyurokhod?.havev , V. V. Yermilov, Ye. S. Raimbekov, and M. 1. Tilimonov); production of carbonyl Re (A. A. Ginzburg); clec troiytic produqtion of high-purity Re and electroplating with Ro (Z. M. Sornin-!-ava and A. A. Nikilina); Re coatings on refractory metals pr-odu-cea_Fy_thWm_aT dissociation of Re chlorides'(A. N. Zelikman and N, V. J@yshnilkov); plas- tic deformation and thcrmon@ @chani_caltreatment of Re (Y.- and Yu. A. Sokolov); growth of Re single crystals and effect of 0.- on their pro@e-rtics Qfc-._-7. S@@tskiy and G. Ye. C u rikov); Re-TV10, Re-W, and N_ _ _ Re-precious -metal allo@78_(ye. TVI.- Savitskiy. Mi. A. T I Ina, and K. B. _y Povaroval synthesis of ReInTtridew, Pilfejes, phosphides, and selenides (G@ @Vr @nov. V. A. Obolonchik, and V. S. Nej.@por); weldability of Re-Mo and Re-W alloys (V. V, D'pchenko, B P Mo ov, and Q., N j Wqz- 0; now fioldx of application ?O-r-We and Re alloys IM. A,__ Tylkin and YeJA_SAXLt5Wy); and Re- Mo alloy for 't h armocouples (S---X- Danishevskiy, Ya. A._KochqE@h La AnAiy, and qj_@p). [WWI Tbvobzm nst&Ur, no;, 4, A;r 1963, PP'9e-93  L-2@885-65 EWP(*)/EWT(m)/EPF(n)-2/EPR/LVP(t.)/EWP(k)/E4P(b) 'Pf-4/Ps-411 Pu-4 !M@c) JD/JU/MLK ACCESSION NR: AT5002761 810000164100010001 M 0/0095 AUTHORL-Sominskava. Z. M. Nildtina, A.*A. -------------- TITLE: ElectrodeposiUo f hl h- )urity rhenium 0 SOURCE: Vaesoyuznoye soveshchaniye po probleme reniya. 2d, Moscow, 1962. Renly ihchaniya. MoscoW. MI-Vo NgWM, 1 0-95 (Rhenlum), rudy sowis TOPIC TAGS: rhenium, rhenium refining, electrolytic refining, electrodeposition, ammonium perrhenate, anion exchange resin, rhenium extraction, rhenimn adsorption, tributyl phosphate, rhenium powder ABSTRACT: The authors studied the possibilitrof depositing rhenimn from solutions cc ammonium perrhenate which were obtained by three methods: (I)- adsorption of -rheniu- 6, from potassium perrhenate by the EDE-10P anion exchange resin followed by washing with ammonia; (2) extraction of rhenium from potassium perrhenate with tributyl phos- phtite followed by reertraction with ammonia; (3) dissolution of solid rhenium obtained from potassium perrhenate followed by neutralization with ammonia. R was found that the electrochemical method produces powdered rhenium of high purity. The influence of the duration md ratio of cathodic to anodic current on the particle size of the powjAer was investigated. Comparative characteristics of d ed hentum obtained by Card 1/2  M ACCESSION NR: AT5002761 different methods (direct current, -alternating current; powder obtained from hydrogen reduction) are tabulated, and the electrolytio circuit of a device with a current of reversible polarity Is given. 7he powders could not be pressed satisfactorily, apparently because a uniform distribUion In the metal the covjd not be achieved. Orig. art. has: 2 figures, 4 tableb and 4 formulas.  MqW/E'M(b)/EW(tj Jjp(c) MljGIIWLK ACCESSION NR: AT5002762 S/0000/641000100010096/0101 AUTUORs Som.inq.kayaj ZIJI..; Ni.kitinas TITLE t -Rhen-jj',-#L and Rhenium-alloy coatings. SOURCEt Vaesoyuznoye soveshchanLya po probleme reniya*,Zd, Hoscov 1962. Re'@Iy (RhanLum); trudy sovesc lys, HosEow; 1xiF;iio Nauka.1' 1964, 96-101 TOPIC TAGS: nickel containing alloy, tungsten containing alloy, rheniump rhenLum alloy. cobalt containing alloy, rhenium plating, rhentum alloy plating, titanium, molybdenum. nIckel, steel, gaLltu12 corrosive action corrosion -behavior- of --rhenium- -plated -on -Md- __NL I I a vid ataal has been Investigated. Tested-metal specimens were electro- plated with rhenium In several steps (each plating operation folloved by annealing at 700-800C to obtain coatings hea,@Ler than 5p, The coatings were relatively dense and contained no continuous porosity* Resistance of Re to corrosion in Ga was tested at temperatures from ----300- to 2100C, Test results shoved that though solid Re resisted co Card I / 2  23349-65 ACCESSION HRs AT5002762 rosion even at 10OC9 Re coatings (about 10y thick) protected steel and nickel only up to 300C and No to about 800C, RhwAun- refractory alloy coatings appear to be the most promising* Such an alloy coating con- taining 17% Rao 18% Wp and 652 Co. has been deposited in an electro- lyte containing 12g/t W, lOg/1- Repend 4X/t Cot Orige art. hast 2 figures and 2 tables* INS) ASSOCIATION# none SUBMITTZDt 05AuS64 ENCL-i 00 SUB COD21 MM No Ray SOVt 006 OTHEM 004 ATD-PRESSt 3174 ---------- .2 _UA tok,-R: @070_r- 0qF Card 2/2  r- I ir t ('1171 '17- 1 1 _r 1 X-1 Ll-@ T -I17 t- T"II _01 t@v _L 967 SOURCE CODE: UR/0286/ 5/000/017/0070/0070 INVENTOR: Sominskaya. Z. M.; Nikitina, A. A.; Mikhalltsova, V. D. ORG: none TITLE: Production of heat-resistant rheniupa@in @sten alloy. Class 40, No. 174368 (Annowiced by __@he state Scientific ResearcTand Planning Institute of the Rare Metals (Gosudarstvennyy nauchno-iseledovatellskiy I proyektnyy institut relkometal- licheskoy promyshlennosti)) SOURCE: Byulleten' lzobretenly i tovarnykh znakov, no. 17, 1965, 70 TOPIC TAGS: rhenium alloy, tungsten containing alloy, heat resistant alloy ABSTRACT: This Atr;hor Certificate introduces a method for the production. of beat- resistant rhenium-tungsten alloy. To o, .btain alloy in the form of a coating rthe process is carried out by electrolysisilt 50-70C and 100-150 a/dm2 For 5-15 min. in an electrolyte of the following composition (g/l.): ammonium or pntassium perrhen- ate 50-100, sodium tungstate 2-16, ammonium sulfate 100-200, and citric acid 100--150. To obtain alloy in the form a powder with a uniform distribution of tung- sten, the process is continued for 15 min or moreft fAZ I SUB l/ SUBM DATE: 13Feb64/ ATD PEWS: 4414-5- ard 1/1 UDC 621.357.9  L 13699-66 ji@-LprCm).Zo...! dIF -ie(-- P02) Tip (c) AL-ILa- ItUAw %k- ACC Mt IP6002584 SOURCE CODE: LR./0286/65/000/023/0076/0076 INTENTOR: Sominskaya,_&jj.@..; Nikitina, A. A.; Mikhalltsova, V. D. ORG: none TITLE: Method of electrol)!jiq deposition of heat-resistant alloy. Class 48, No. 176769 -A SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 23, 1965, 76 TOPIC TAGS: electrolytic deposition, tungsten containing alloy, cobalt containing alloy, rhenium baco alloy ABSTRACT: This Author Certificate introd34ces a method of electrolytic deposition of heat-resistant alloy cq enl4nd.cobalta-7To obtain ternar-17-he-W-Co alloy ,@taining tungst in the form of a pcwder a coating, the electrolysis 7 performed with &-current den- sity of 100 a/dmz at 50C in an electrolyte containing 10 g/1 ammonium- or, potassium- perrbenate.12 g/1 tungsten in the form of a tungstate, 1-6 gli cobalt.in the form of a sulfate, and 250 g/1 ammonium sulfate with ammonia to obtain an alcalinity of pH 10. *1ND] @11'f S SUB CODE:// 0'7 SUBM DATE; 13Feb64/ ATD PRESS: Card I I'l PrA UDC: 621-35T.7:669-841512T'25  L 1 -F( t OE@-; -1p ITD 63782-65 EiIT AP5017741 UR/0365/65/001/004/036710369 j AcassioN N-P, 621.357.9 9 AUTHOR: Nikitina, A. A.; Scainskaya, Z. M.; Vagr@myano A. T. A Ll TITM Combined electrolytic depositi of rhenium and IcA2 @er 5 51 Y'Y r;7 L- 7 SOURCE: Zashchita metallovj vo 1$ no, 4, 1965, 367-369 TOPIC TAGS: combined electrochemical deposition, deposition potential, electro. chemical codeposition, electrochemically deposited rhenium, electrochemically deposited copper, Lon reduction potential, polarization curve, cathode surface, passivation ABSTRACT: In the presence of combined deposition of metals the deposition poten tial of the alloy often is lower than the deposition potentials of the components@ This is usually attributed to the depolarizing effect exerted by the change in the partial miolar free energy on the formation of alloys. This explanation, how- ever, does not sound convincing in certain cases. Thus, it is known that lead and silver do not form alloys, yet the electrochemical deposition of salts of hese metals from aqueous solutions results in a cathode Ag residue containing  L 63782-65 P iF..".ACCES9JjON. NRt @1!5017741 i@@about 7% Pb. Therefore, even mutually insoluble metals may be co-deposited A similar effect was observed by the authors during the electrochemical deposition of rhenium. and copper from aqueous solutions. 146tallid unoxidized residues containing up to 30% Cu and Re could be isolated from ammon- S. dulfate solutions with perrhenate and copper sulfate being present in concea to trations of at least 50 g/liter and at most 2.5 g/liter) respectively. This -.'-.,.,.,prompted the authors to investigate the combined effect of Re and Cu an the re- M, duction potential of their Long. In this case, as in the co-deposition of Ag @%!'@','7and rb, alloy-formation does not take place, since a Re-Cu alloy could be obtain- ed neither by the thermal method nor by the electrolysis of fused potaosi perL 1-,.-':Jhenate on molten silver cathodee The experimental curves plotted (in all casen hydrogen was isolated as well) Indicate that the deposition of rhentum and re- -lease of hydrogen as well as, a fortiori, the depositioti of copper and releas -'hydrogen occurs in the presence of-a higher overvoltage than the combined dep air, tiod of rhenLua and copper and releaeb of hydrogen. The addition of Cu to the Re-contg1niag iolution facilitate'a reduction of the parrhenate ions and thus 0- e ucea the polarization during the deposition of both Re and 'Cu. Thus, the c @ogition of'thbie metals ia mutually facilitated although they form neither s@ Molutiolu.nor qhewictal compounds,, The decrease in.polarizAtion dub to th . - .:. 1 7 -,7 +o:  -'@'ACCESSIOH NRt AP3017741 C3 1_- facilitated reduction of metal ions should be differentiated from depolarLzation, due to the change in free energy during alloy-formation, it is probably rather to the change in the state of the cathode surface. It may be assumed that, when each metal is separately deposited from the solutions, the electrode surface , reacting with the medium, gets passivated and thus the reduction of the metal -ions is complicated, whereas the combined deposition (co-deposition) of both als slows down this passivation-and thus accelerates the rate of reduction of .,".their ions compared with the rate of reductibn of hydrogen ions. This was veri- iied by appropriate experiments also performed by the authors. Thus, the advan.- 08 tagea of the co-deposition of both metals as compared.with their separate dep *I- - tion stem from a change in the state of the cathode surface. Orig. art. hast @,- , , -:;.l figure, 2 tables. ASSOCIATION: -CosudArat*ennyy nauchno-iouledovatellskiy inatitut redkometalli- cheskoy prom"hlennooti @Qtate Scientific Usearch Institute of Rare Hetals Industry) SUHKITTUDI 06Mar65,,. ENCLj 00 SUB CODE1. M (-lj C, NO REP OV 604 OTHER1 .002 Card 3/3  NIXITINA, A.A.; SOLOTYEVA, Z.A.; SCHINSKAYA, Z.M.; VAGRAMYAN, A.T. Mechanism of rhenium electrodeposition. Elaktrokhialia I no.6t 748-751 Je 165. (KRA 18t?) 1. Institut fisicheakoy khimii AN SSSR,  r SOURCE CODE: UR/0365/66/002/003/0349/0352 AUTHORI Nlkitlna@ A. A.; Sominskaya, Z* Mo; Vagms jang 33 ORGS none TITLEt Mochwilam of olectrodeposition f rhanium le SOURCE: Zashchita metallov, Y. 2. no. 3* 19660 349-352 TOPIC TAGS1 rhenium, electrodoposition, passivation ABSTRACT: Me study van devoted to a verification of a proposed mechanism of rhonium electrodepo,,sition, ond to the determination of the passivation rate of the electrode surface. Electrolytes of the following composidons (in g/1) were employedl (1) ammonim perrhenste 50, sulfuric acid 25; (2) ammonium perrhenou 30, sulfuric acid 25p ammonium sulfate 40. The electrolysis was conducted at a current density of I A/cm2 and 700C for 15 min. In the slectrodeposition of rhenium from solution (1) with an intermittent current, the minimum on the curve representing the current *ffi- clency of the metal vs. the pause between the current pulses was found to correspond to a pause of 10-2 see. As the pause decreases, the current efficiency of the metal Incressesp Indicating that the renewed surface of the cathode does not manage to become fully passivated. The curve shove that a pause of the order of 10-3 see Is required for the electrode surface to regain Its original state. Thusq the experi- mental results bear out the "activation" mechanism of rhenium elettrod9position &W Card  i t in i--- s,-,, i-,! L ce o f' tv c@-l c- 1 of re s 4E Lie' Ai Z; I  @ IIUEHLVI@.All I A. A. y . Ya. i- , &- SCIABSny, u.s. I-IOSCO "The Dynamics of Sorption"; Zhur. Fiz. Kh-im; 131 No. 3@ 1939; Rcd. 21 FeL. 1939 Report U-1613, 3 Jan. 1952  SOMINSKIT, D.S., kandidat takhnicheakikh nauk; KAYUSHINA. R.L. MON-%" Preparatton of highly dispersed dyes and determination of their garnularity. Xhim.nauka i prom. I no.2:205-208 '56. (XLRA 9:9) (Dyes and dyeing)  /Determladtflan of the SPecific Qur;-!,@ Ate.-A Of findY POv'- Vdered matedith by Me raetbod of (I tion of nitrogen. 12--& So ... ;u4iL and !@AU@Oiuv Khim, Naxka L s tnetl@qd I I (C.A. 50, 6132ij(tt Actch U the app. i4d mt(liml are rtvm) WA% upplit-d satisfactorily to sevem I diffmot of Cmely gromid matcr@ds sucli as tak, @@l stablacitt, r@jattz =n"It ceniclit, pegmalitc TTI I'i par. g@@l I gi-ALlike-7-11-o othem I IrGive ";(I,Lt  IUMORS., Edellman# L, 20-11"-A5/63 T IT W The Influence of the Addiiiona of Surface-Active Substances on the Intensity of the Vibrational Grinding of Cement (Vliyaniye dobavok poverkhnostno-aktivnykh veshcheStv na intensivnost' vibratsionnogo izmellcheniya toementa) PERIODICAL: Doklady Akademii nauk SSSR, 1957, Vol- 114, Nr 4, pp. 844-847 (USSR) ABSTRACT: The effect of the decrease in firmness conditioned by adsorption was discovered and studied in the papers of Rebin(ler and assistants regarding various solid subetancen. It was observed when grinding, fire-proof materials, djeS and ores in a moist state. The introduction of some surface-a:otive substances makes it possible to Aise the dispersion of cement considerably. Besides being ascribed to the affect of the decrease in firmness due to adsorption, the increase in grinding intensity is sometimes also ascribed to the desaggregating action of surfaceactive additions. The authors investigated the influence of such additions on the crushing intensity at the grinding of Portland-cement in a laboratory Card 1/4 vibration mill. The hydrophylic additions of the sulfits-  The Influence of te Additions of Surface-Active Substances 20-LU-4-45/63 on the Intensity of the Vibrational Grinding of Cement alcohol slop (calcium lignogulfonates), and the hydrophobic additions of sapon-naphth (mylonaft), acidol saponnaphth and oleinic acid (0,1-1% of the weight of the cement) were studied. The introduction of surface-active substances intensifies the dispersion of cement. Thereby the specific surface is enlarged. The hydrophobic additions are more active than the sulfite-alcohol slop. Thereby the time of cement grinding may be shortened on the average by 50%. This increase of surface occurs at the expense of the augmentation of the fine particle fractions (below 5P of radius). The influence of a surface-active substance (oleic acid) increases only within a content of between 0,1 to 00% at 20 minutes of continuous crushing* Higher percentages become effective only in the case of one hour of crushing. Furthermore, the influence of the acting efficacy of the said additions upon the crushing kinetics of cement was examined in dependence on the frequency and the amplitude of vibrations of the mil4substance. The influence of the surface-active additions is clearly ma ked only in the domain of the optimum parameters of vibration crushing at a Card 2/4 sufficiently high frequency and amplitude. Prom this it may  The Influence of the Additions of Surface-Active Substances 20-144-4-45/63 on the Intensity of the Vibrational Grinding of Cement be concluded that the above-mentioned grinding intensification is not due to the prevention of aggregation of small particle@ of the finely disperde material, i.e.'not by its stabilizationg but by the primary effect of decrease in solidity, in so far as the stabilizing (desaggregating) action of the additions is apparently not connected with the grinding mechanism* The adsorption character of the intensification is confirmed by the dependence on-the concentration of the addition. Based -upon experimental results it may be said that the chief factor of the intensification is the sufficiently0high frequency of the vibrations. These results are in accordance with the opinions of Rebinder and his assistants on the role of substances which decrease firmness in the case of periodi- cally destructive influences upon solid matter. There are 2 figures, I table, and 18 references, 8 of which are Soviet. ASSOCIATION: Voesoyuznyy nauchno-isaledovatellskiy institut novykh problem proizvodstva stroitellnykh materialov na bm tonkoso Card 3/4 izmellcheniya (All-Union Scientific Research Institute for t  The Influence of the Additions of Surface-Active Substances 20-144-4-45/63 on the Intensity of the Vibrational Grinding of Cement New Production Problems of Building Material Based Upon Fine Crushing)- PRESENTED: December 30, 1956, by P. A. Rebinder, Member, Academy of Sciencee, 'USSR SUBMITTED: December 30, 1956 Card 4/4  KORNIYENKO, G.G., kand.tokhn.nauk; SOKINSKIT. D.S.. kand.khim.nauk Interaction of magnesium oxide and silica sand under I hardening conditions of lime-sand binders. Stroi.nat. 5 no.8:32-34 Ag 159. (KIRA 12:12) (Srind) (Line)  50) SOV/0-9-21-1-18/21 AUIMORS: Edellmann, L.I. and..Bominskiy, D.S. TITLE: To the Evaluation of the AggreGate Stability of Suspensions. (K otsenke agregativnoy ustoychivosti suspenziy) Pil-_111RIODICAL: Kolloidnyy zhurnal, 1959, Vol XXJ , 1[r 1, pp 126-131 (USSR) ABS7'RACT: A method has been developed for evaluating the stabi- lity of a suspension aggregate by optical density measurements. It has been shown that the method per- mits the selection of the optimum dispersion media and the surface active agents for the production of the most stabilized disperse systems. Using this method, the optimum dispersion media have been selected for finely ground powders of limestone, granulated blast-furnace slap, iron minium, and cement. Optimum surface active agentshave also been found for aqueous suspensions of Card 112  SOV/69-21-1-18/21 To the Evaluation of the Aggregate Stability of Suspensions& talcum and sulfur. The results obtained coincided well with data from densitometric analysis. There are 3 graphs and 3 tables and 7 references, 5 of which are Soviet, 1 English and 1 German. ASSOCIATION: Vsesoyuznvy naucM t Olqkogtellskiy institut novykh problem proizvodstv mare ov na baze tonkogo izmel!. cheniya. (The All-Union Scientific Research Institute of New Problems of Production of Building Materials on a Fine Grounding Base.) SUBMITTED: March 12, 1957. Card 212  KORITIMIKO, G.G., kand.tekhn.nauk; SOMINSKIY, D.S.,kandAhim.nauk Studying the hardening of peat-ash binders. Stroi. mat. 6 no.11:37- 38 N 160. (MM 13: 11) (Binding materials)  L 1@6oo-66 VdT(M) ACC NR, AI,1,001016 AJT:10hS: Isidorov, V. V.; Akunov V Ll Dubinskjy, M. G.; Z4vadskl/t U. V.; Lur'7(3 1. 1FU-'tW- III, U. I.; Nonenko, N. I ln.riaakov, Y@. va A. Its; 41 X.ybiij V. j( Sidoclionko.- , M.: SUM-inskly, D? Titov, F..F. Khalov, G.T@-'; Sociluvell S.; Znvgor(x1nIy, u. 010,1 Iloilo @TfUi A reactor for combWod pulysirtAilill Mid 1%IM1li#Z Of A wit"riAl# ptich as orinnnts I in a high tcrnperature ra3 stream. Claqn to, No. Wj'@1149 SOUhCE: Byulletunt izobroteniy I tovarnykh znakov, no. 22, 196ti, 101 M?1C TAGSs cement, thcrmal reactor ABSTIaGTj This Author Certificate presents a reactor for combined pulverizing and burning of a maLorial, such a3 comont, in a hij;h terperzituro Goo stream. To provide automatic regulation of the burning and calcification time for the materiai in the roactorp the latter in mde In the zliapo or a flat, lonticular chambor. Nozzles of the combustion chambers are built into the peripheral circle or the lenticular cocumber and at an angle to ita radii. An oponing in the center of the civimber bottom is used to discharge the finishod burned product. SL93 CODE s Card 1A 3/ SUBM DAM 210ay6l  SOXIESKIY. G.; LIMANOV. 1. Technical standardization and public control. Sots.tmd 4 mo.11: 127-130 N '59- (MIRA 13:4) 1. H-iikovoditel' gruppy normativno-iseledovatel'skov laboratorii pervoural'skogo Nevotrubnopp sayoda (for Sominakly) 2. Predeedatell komissii zarabotnoy platy zavkoma profso7uza pervourallskogo Novotrubnogo zavoda (for Zhdanov). (Rolling mills-Froduction. standards)  /9 WP(q)/T/- dA/ 'TW7Pff Fz_6/P&b-2h/Pu-4 TJP(a)/ASD(a)-~/SSD/BSD/RM(a)/ArdL/ESD(gs)/ EsDWAsDW/RAM(t) A-,IjwljDl.* ACCESSION MR: AP4044651 8/*OOU/64/028/M/1340/1343 AUTHOR: Butuscn.,_M.@L.; Oan*chavs D.A.; SoalMt1yLO.G.; Fridrikhov, S.A. TITLE: Increase In the Lasion of cat fields ffieportI.ThIrd All- ,,Union Conference on Semiconductor C-o_np6`u_n7iFs_jheld In Kishinev 16-21 Sept 19627 i SOURCE: AN SSSR. 1xv. Berlya 21sicheskaya, v.28, no.8, 1964, 1340-1343 @TOPIC TAGS3 magnetrong secondary emission, oscillation 4 @ABSTRACT: The authors investigated the pulsed behavior of a magnetron diode with -system similar to that emplo by R., smooth cylindrical copper anode and a cathode ,L.Jepsen and M.W.Muller (J.Appl.Phys.22 2196,1951). The cathode system consisted o, ,& hot tungsten helical trigger cathode and a cold cylindrical cathode from which ,secondary emission currents could arise. Findings of earlier Investigators were c@@ f Irmed. AXbstracter's note: It to not entJ rely clear which, if any, of their results: T h -a - - -a _n ad e-- - - a f -t h e - m awn-e-t - r - a a - d 10 d e- w- aw - a P p -xc xe- I y1.- -6 .on In diametero and the cathode was 067 on in diameter and 2 on long. The device @was operated at anode potentials from 2 to 20 kV In magnetic fields up to 2.5 We ,with I microsec pulses at a duty cycle of 1000, Various cathode materials were on- 1/3  'L 6513-65 ACCESSION MR: AP4044651 ployed, including Ki and activated WBMI. At sufficiently great anode potentials ore ma Ieb (anode current v us gnetic f 1, and magnetic fiolds, neither the cut-i;f at constant anode potential) nor the curves of anode current versu -a anode Potential,. at constant magnetic field were monotonic, but each had a large peak. The peak an- ode current Im, the anode potential Um at peak current, 'the magnetic field D, and @the secondary emission coefficient do of the cathode material at peak current con- ditions were found to be related by Is as A(dm@-I)Umn. Righ-f requency "noise" with a discrete spectrum was observed In the range between 50 and 5000 Kegacycles/sec when' the enhanced emission occurred. The behavior of these oscillations In not discussed, but it is suggested thiit they are the cause of the _'ncreased electron bombardment ut 'the cathode which gives rise to the enhanced emission. The authors note that they have confirmed the existence of large secondary emission currents In creased field instruments with no external resonators, and that theme currents are associated tj with self-excited space charge oscillations. "In conclusion, the authors expres 'their appreciation to Prof A&R.Bhul Oman for his constant interest in the work for valuable remarks, Ort i_R.hast I formula and 9 figures,,- 9 . Jl :.2/3  L 6813-65 ACC19SSION MR: AP4044651 ASSOCIATION: Leningradakly politekhalchookly InstAtut sln%r4d Polj!e4.hnlo (!!! tute) . SUBUITI 00 RNICLi 00 SUB 1000c: EC sp MR REP SOV% 006 0 at J04 3/3  _L 1437@-65 EWT(d)/EWT(1)/EWG(k)/EPA(sp)-2/EPF(n)-,'/EPA(w)-2/T/99",(b)-2/ EWA/EWA(h) Pn-4/Pz-6/Pab-lo/Pac-4/Peb./pi-4/r-u-4/pj-4 IJP(c)/B-qj)/ ASD(a)-5/SSD/AF,VL/RA,EM(a)/~ESD(C)/ESD-(gs)/ESD(t) AT ACCESSION MR: AP4045278 S/0057/64/034/009/1666/1676 AU771OR: Sominskiy. G.G. Terekbin, D. K. Fridrikhov. S.A. TITLE: Cutrent-voltage characteristic of a magnetron with a secondary emission cathode, SOURCE: Zhurnal takhnichoskoy fiziki, v.34, no.9, 1964, 1666-1676 TOPIC TAGS: magnetron, microwave oacillatori.current voltage, characteristic, secondary electron resonance ABSTRACT: The physical processes occurring in magnetrons are highly complicated owing to the fact that the electrons in these devices move in a system of fields consisting of a magnetic field, an electric field and a high-frequency field. In addition, one cannot ignore the interaction of the electrons with each other. The authors review the results of several experimental and theoretical studies of mag-: notrons. Then, on the basis of experimental data, they derive an empirical formula describing the current-voltage characteristic of a magnetron with -a se- condary emission cathode in the region of the peak of the characteristic curve. n-.e initial step is to normalize the current-voltage characteristics by eliminating the parameter H (magnetic field intensity),; tc this emd the cur4es'ara replotted in re.-., Card 1/2  L 14375-65 ACCESSION KH: AP4045278 duced coordinates: (Ia/la max) versus (Va/Va max), where la is the anode current and Va is the corresponding voltage. The formula takes.into account not only secondary emission Ibut-also the geometry of - -the- - "I ft-te-racti on s -pace" -.---The -deduced forlaula-gla@@_-,7- tisfactorily describes the ascending section near the maximum of the current-vol- tage characteristic of A magnetron. Fin *ally, an exi3lanatio.nis given forsome of the anomalies observed In the operation of magnetron type oscillators (enhanced e- mission, presence of high-energy electrons, etc.); this explanatinn is based Ion tho theory of secondary electron resonance in the presence of a magnetic field. 'In con. elusion, the authors express their gratitude to Prof A, R, Shul 'man, for his interest in the work and valuable advice." Orig.art.has: 19 formulas and 7 figures. ASSOCIATION: lAiningradakiy politekhnicheskiy institut Im.M.I.Kalinina Mening ad Polytechnical Institmue FWBUITTED: llOct63 ENCL: 00 SUB CODE: EC 110 REF BOV: 007 Ulu R: 006 Card 2/2  191THSOV, M.M.; (;AIITGIfF.V, D.A.; S(XIIIISKTY, G.G.; FRORTHOV, S.A. Increased cathode emiBsIon In croosad fieldn. Izv. All SSSR. Ser. fiz. 28 no.8r1340-1345 Ag 164 (141RA 17t8) 1. Leningradskiy politekhnicheskiy institut.  SOINIU31M, G.G. Anomalous charneter of the maximum current bvir-dary in a mmrnatron. 7hur. tekh. fiz. 35 noel-162-164 -ja 165. ( m I T--Ii 'k 8 : 3 11 Is i'olitakhnielieskiy Institut Imeni Kalininap Leningrad.  AUTHOR: ORG: TITLE: SOURCE; APS025889 SOUR= CODE: UR/0057/65/035/01RAMA785 Sominakly, 09 Polytechnic Institute im. U.I.Kalinin, Leningrad (Politekhnicheakly Institut) Azimuthal distribution of end current in a maignstron X< Zhurnal tekhnicheskoy MAI, v. 35, no. 10, 1782-1785 TOPIC TAGS: magnetron, electric current, space charge, electron distribution# noise generator ABSTRACTs The and current In a type 2J32 magnetron was observed with the aid of a fluorescent screen. The magnetron employed a cold Lplatinum cathode which carried a small hot oxide-coated cathode at one end for Ignition. One cathode end shield was, replaced with a grid of 150 M diameter nickel wires having 0.35 X 0.35 mR2 openings to permit passage of the end current. Located 2 ma beyond this grid was a second grid for control purposes, and 2 mm beyond the second grid was a fluorescent screen. The magnetic field was produced by Helmholtz coils and was uniform within 2 %; the current ripple in the Helmholtz coils was less than 2.5 %. The magnetron was continu- ously pumped to below 2 X 10-3 ma Rg, was operated with I 11seo voltage pulses (up to 25 kV) at the rate of 1000/sea, and the fluorescent screen was photographed. The pat- tern on the screen, due to electrons carrying the end current, exhibited a spiral structure. When the magnetic field was below 950 oe there was one spiral am; when Card 1 /2  ns@cy arif rornz iosb.0're"live f'Inda..C.. ,Oy ov. 0: 0@)l cy forril, rcr. 110-15 L SC,: Iztj-.crat!_cs in A.I.-ic U-33H, 1?3:1-1?47 (I(Ated by Lurosh, G., arlaishevic! wou-Le- .(). I I  ----- ----- SoMkM&Y, L, Sur Iss Ifinites du domains fandamental I dru-n-Ifo-u" d1&uUwwMh1sm" Wane - Amme tunake quadiatique indftnic C R. (Do"y) Acad. S& URSS, (N--,,) $6,127-128 (1941)t Utt AT, Y, A W 14 lem;4ty WkAnk 113, IWL@ N" with 111tcor coemcletits of 1)04mv actm- 7nn-ant @_nd not mptv- senting zero. Let 0 be the group of autornorphisms of f(x, y, x), C1 be a fundamental domain and dw boundaries of 0, which-separate Q from its neighboring fundamental domains Do. - - -. M. In a preceding paper [Leningrad State Univ. Annals CUchenyc Zapiski] Math. Ser. 10, 148-IS3 (1940); these Rev. 2. 252] tha author proved that -tj is in general a quadratic sw(am In ..ote he establishes that A can be defonoed into fundamental domain 0 whose boundaries are planes. L.-K. 114a (Utbana, 111.), Vol 10, No. I Sourcei NathemstiCal ROVlOws  U F SominskiJ, 1. S. On the structure of the group of aqw- -T-A ternarY quadratic - -mdefini moFI)WUU--0 te form. DokLoly NauL SSSR (,,,!.S.) %. 241-243 (p)47). (Russiall) I-AA& ter. Iwo, imll'-@Illiti. 9ki'Ormir (prnk wilit intqt-r Ckwflicilrot$ a. b. C 9 h. k of positive determinant anti not rvtiresefitiug zero. Le@ W b46 the group of automorphisnis of f, let 0 be a fundamental region of 0 and let be the boundarivs of 0. which separate 0 from its neighboring fundamental doinains fit. - - '. %. 1'et Sa, - - .. S" be the transformations carrying a into %, - @ .. %. rhe akAthor proves that S is either of order two or of order infinity. The method based on the fact that the order of a modular transformation of finite onler can only be 2, 3, 4 or 6. Then he works out the CaSCS @Idinit ng autoinarphisms of order 3, 4 and 6. L. '- K. 11tia (Urbana, 111.). Soijrce: Hathematical Revimis, Vol 10, No  -SON)INSKIY, I-S, 9, Ig On (ho 4114tence of automorpItIsats of the ,"t 4 WINN Mr wy tuadratio Indefinhe (ot f4jt4ja, tsm fortUs. Me- Stevnik NS. )JOS), 219-294 (1944), (Russh, n) Let -f(x,y,s)-oxl+byt+cO+20s+Zku+Zkxy be an Indefinite form with integer coemcients. Weauthor attacAs the probleth of the existence of involutory automorphs of f. He obtains some partial results. (1) Every form where invariants are odd relatively prime numbers, possesses involutory automorphs; (2) every nontero form whose I dttaminant Is A pwc( of an odd prime Possen" Involu. - tory automorphs, It should be remarked that, on P. 284, he pmves thAt is form which has an involutofy automorph can be trans-, formed by means of an unimodular integral substitution into one of the following: (1) axS+W+cO+2gr, (2) Utz'+ W.+Cx*+U1V+2Vx' (3) 2a&O + bjA+ cO+ 2aAy+ Ujxs+ 20c; but (2) and (3) are equivalent. In fact. +b(y - U, +b +c+2j)sP+ U14+40 - 2) Sourcel  If  @ , -4 -@ -, --.. _- ! , I . :; . .4 " I -!w R @J' - ' icn, - a : t @"7' - - - -- . I met@:cxJJ cf , --,z -- Monthly List af Russia Accessions, Library cf Congress, Cctcter 1952. Unclassified.   PA=YNV. D.K.; SOMINSKIY. I.S.- BARKOVSKIY, I.V., redal-tor; MAKRUSHIN, V.A.. tekhnichd@B@ [Algebra. Pt.2. KwmAI for mocondsvy nchool tounharal Alrebm. Chast' IL Posobis d1la uchitelel erednet shkoly. Lehingrado Goat ur-habno-padagog. izd-vo Mialsterstva proares?-.chanita RSM, 1954. 286 p. (KLRA 8:3) (Algebra-Study and teaching)  FADDIM. D.N.; SDKIMIY, I.S. (Collection of Problem In higher alpbra] Sborulk sad- b po v7vehel algebre. Isd. 5-e. stereotlynos. Moskva, Goa. isd-yo tekhniko-tooret. lit-ry, 1954. 308 p. (K6U 7: 8) (Algebra--Problem. exercise@, etc.)  SBD!diik, PL VY,-:-.:r6f C-1-1 iy. 1. S.  SOMINSKIT, I.S. (Novgor7d). lxposition method for geometry theorems in grade 6. Mat. v shole no.6:36-39 N-D 158. A (MIRA 11:12) (Geometry--Study and teaching)  KUZ114IIIA, S.A.; SOMINSKIY, I.S. Test problems for the geometry course in the 6thgmde. Mat.v shkole no.4:44-51 JI-Ag '59. (MIRA, 12-11) (Geometry--Problems, Ixercises, etc.)  FADDRM, Dmitriy Konstnntinovioh;_U@ @_Illys Samuilovich; GO- RTACHATA, M.K.. red.-. M=690VA, Ms., tskhn. red- (Algebra for self-instruction] Algebra dlia sar3obrazoveniia. Moskva, Goo. ixd-vo fisiko-matem. lit-ry, 1960. 529 p. (MIRA 14:5) (Algebra)  FADDEYE-V.. Dmitriy Konsturitinovich; SUL1 ASKII, -Il'ya-Su=ilovIc-V1;..AKIWV, G.P., red.; LUKIYANOV, A.A., texhn. red. (Collection of problems in higher algebra] Sbornik -adach po, vysshei algebre. Izd.7., ispr. Moskva, Cos. izd-vo fiziko-matem.lit-ry, 1961. 304 P. (Algebra-Problems, excercises, etc.) OWIA 14:12)  A=@iS=, -132ye-1-3-111ovich; GORYACHAYA, M.M., red.; IMYUCHKOVA, V.N.p tekhn. red. [Elementary algebra; supplementary course] Elementarnaia algebra; dopolnitellrjyi kurs. Moskva, Fimatgiz, 1963. 200 p. (MIRA 17t2)  L'26972-65 EWT(d)/EWT(1)/EEG(b)-2AVA(h) ACCESSION NR: AP5003256 AUTHOR: Sominskly, G.G.-__ ............. Pt-WF4c-4/Peb/Pi.-4/Pj-4 41 S/0057/65/035/001/0162/01649 4w in TITLE: On the anomalous character of the maximum current curve a ma etron oscillator SOURCE: Zhurnal tekhnicheskoy fiziki, v,35, no.1, 1965, 162-164 ---TOPIC-TAGS,--magnetron, secondary emission, cyclotron resonance ABSTRACT: Current-voltage curves were recorded for a 2J32 magnetron operating'Vii-_7 the 10 cm region and for a magnetron diode of similar dimension, and the envelopes of the families of curves obtained with different values of the magnetic field were constructed. These envelopes are called "maximtA -current curves". The-magnetrous- were provided with 6, 8 or 10 no diameter cold cylindrical platinum cathodes slid each magnetron had a small'aluxillary hot cathode to Initiate the action. The nia- A surements were undertaken to test the'hypotheals of M.M.Butusov--and S.A.Fridri'rhov (ZhTF 34,288,1964) that the fast electrons bombardingthe cathode-and enhancing the1_-,.-_,1--,-_- cathode current arise from secondary electron resonance in the crossed fields.@ Such- secondary electron resonances can occur at multiples of half the Larmor frequency, Cardl/2  L 26972-65 ACCESSION KR: AP5003256 and they may be expected to interact.with the 1( mode of the magnetron. The maximus current curves of the magnetron diodes were found to be linear, in agreement with the results of R.L.Jopsen and M.V.Muller (J.Appl.Phys.22,1196,1951.1, but those of the magnetron oscillators had peaks. These peaks were most marked with the 8 mm diameter cathode and occurred at magnatic fields corresponding to Larmor frequen-, cies of 3700 and 5750 Mc/sec, whereas the frequency of the g mode was 2800 Me/see., The it mode frequency was accordingly approximately equal to the Larmor frequency at" one resonance and to half the Larmor frequency at the other. This result is regard- ed as supporting the hypothesis of secondary electron resonance in crossed fieW devices. "The author is grateful to Prof A. P.Shul "MaLu Lecturer R.A.Ganichey. and Assistant Prof.S.A.Fridrikhov for their interest in the work and for valuable re- marks." Orig.art.has; 1 formula, I figure and 1 table. ASSOCIATION: Politekhnicheskiy Institut im.M.I.Kalinina Leningrad @M. I.Kalinini- Polytechnic-Inatitute-I SUBMITTED: 3OJun64 ENCL: 00 sun cwz: EC,NP NR REF SOV; 007 OMER: 003 Card 2/2  8MMKIY, M. S. and HOKMWG, B. M. "An Investigation of the BlectrIcal Conductivity and the Thermoelectr1c Properties of Semiconductors." J. Zxptl. Tbecret. PIWO. UM, 7, 1099-1104, 1937. (Phyalk. Z. Sowjet-union 13, 198-223 (1938) (in German). The tbumal 9. m. f. van measured an a function of the ttmp for W013, V,,:'O'@' Cuo P So (metallic), "@t, SiC (black and grow), Bl,@,S,,. Tl 8 end Cc oxide, in contact with Cu. For V;.O., WOj, (Bi,83?) and Sic @6@90n) the, worm junction van positivrly charged, indicating that the effect was primarily due to the diffusion of electrons. For SiC (black), NDS.L, Be, CuO and Co oxide the nej.-jr charge of the worm junction indicated a diffusion of pos. areas or "holos." the warm junction of pure Tl,,zp van neg. but partial oxidation reversed the s4p; the sign also depended upon the tAmp. Comparison of e. m. f. detne. with measurements of elec. cond. showed that for WOj, CuO, V@,O , SiC (black) W Cc oxide the thermal e. m. f. increased with decrease in the elec. cond., agreeing qualitatively with predictions.  c *on goal oo a oe a god eels 0 0 go a a Is It a is it a v a a 0 d a 4 04 . z Z %, 7 11 fit f hi Alk A "OC4,n -- -.- - Paul$w 410 p9oplawns mots Ph v 31 L a. IL &AW. riiwa- AN. IL a. S. &Kviba do OWNS %.I.So on- 146- #AMW VMO" so Old Afaww"Watida. 44. caft fee 9 ifaz@ d awk. ps"t tin c I tmumm. F. H. R. func, of am and t Also wee wee wee O"ALLb"ACAL 1.11118OWN CLAWCAIM miz Idwom -I 1 .4. muinmgl GI&III Ow All Is At 10 0 It 11 1 7 7T, . a a I "JUN, -,sale 4111rufat)f 9 goo **::::Ooooo 00 o000040000000:414094141 V 00 0 0- 0-0 * - - - 66000   t1im/Phyfica Jun OPMON, Telescopes "Iftstory of the Telescope," M. S. Soodneldy, 7 pp orriroda" No 6 lt*vlvn 340 yeare in developmat of the telescope.  T" 'V 17;I - I . -- . I @. . - . Science Sketches on the history cf Ideas concerning tne nature of the world. (Nauchno-populyarnaya U seriya). Moskva, Izd-vo AN SSSR, 1950. Monthl List of Russian Accessions, Library of Congress, Cctober 1952. Unclassified.  SOMINSKIY, M. S. USSR/Geophysics - Radiation, Infrared Night Sky 1 Jul 50 "Distribution of Brightness of Night-Sky Infrared Radiation Over the Clestial Archj" Ye, N. Pavlovap S. F. Rodionov, M. S. Sominskiy, S. M. Fiahkova, Phys Inst,, laningrad State U imeni A. A. Zhdanov, and Mt Ellbrus Expedition of Acad Sci USSR "Dok Ak Nauk SSSR- Vol LXXIII., No 1, pp 69-72 Infrared measurements of night sky in fall 1949 on Mt Ellbrus (2,200 and 4,200 m elevation) using photometers with secondary-electron electrostatic tube. Confirmed infrared radiation maximum at midnight. Found intensities of 1.12 x 10-2 and 3.07 x 10-2 erg/sq cm see sterad, respectivelyp for heights of 2,,200 and 4,200 m. Found radiating layertD be 900 km high. Submitted 4 May 50 by Acad A. A. rAbedev. 166T29  3C.'J.-I-I " -. 1'. 1, -@r. : I , s'. . - Lebedev, Petr. Nlkolsievich, 1864-1912 P. N. Lebedev and the progress of physics. Zhur. tekh. fiz. 22 nc. 7, 1952. Monthly List of Russian Accessions, Library of Congress, December 1952. Unclassified.   -A /11 -fvr UMAlectricity Thermoelectric generator Card IA t Pub. 86 - 13A6 Authors i Sominskly, M. S., Cand. Phys-Math. Sci. TWA I Soviet thermoelectric generatoi Periodical I Frirodat 43/9p 80-831 Sep 1954 Abstract j The author reviews the known facts of the thermoelectric effect which is produced in a closed circuit formed with two different metals the two points of contact of which are kept at different temperatures. The greater efficiency of the Soviet apparaturs is due to the manner of construction which maintains a differenr.-o of 300OG between the pointo of contact., substitutes semiconductors for the usual 'Metals) and uses multiple pairos some of which are connected in parallel and others in series. Two Russian refer. ence& (1952 and 1953). InuBtration. Institution I Sutmitted, t