SCIENTIFIC ABSTRACT SHISHKOVSKAYA, M.A. - SHISHLOVSKIY, A.A.

UM/Chemistry - Chemical technology Card 1/1 Pub. 22 - 21/41 1 Logginov, G. I.; Lyubimova, T. Yu.; and Shishkovskaya, H. A. Use of radioactive isotopes for study of changes in the-structure of cement stone during its periodic freezing ftrIOUCOI I Dok. AN SSSR 98/2, 247-250) Sep l1,.1954 Oatract A The Use of the radioactive isotope method for.the study of the causes, mechanisms and kinetics of changes in the structure of cement stone in concrete under the effect of periodic freezing and thawing is de- scribed. It is hoped that this new method will make it possible to approach a solution-for one of the basic problems, namely, the manu- facture of long-lasting concrete with high-freezing redistance.. Tables; graphs. Institution 2 Acade. of So. USSR, Institute of Physical Chemistry and the All-Union Road Construction Scientific-~Research Institute Presented by : Academician P. A~. Rebindery June 4, 1954  M.; C". Rhythmical precipitation of isomeric phenols. K -- 1.1 . rz,!~ ~ r ! ~ , " ( M i-!" . j, ,, : " ~.) n.--..r-):888-890 N-D 165. 1. Institut agr,)khimicheskoy tekhnolcgii, Bratislava, slovakiyu. Submitted Feb. 21, 1965.  SHISHL~.Kol,',, [Shyshiakov, M.I.I. inzh.,-stroitell E--;,,perience in constructing a:fid operating a circullar milking barn,, Eekh. sill. hosp. 13 no.8:15~-18 Ag 162. OURA 15:7) 1, Kolkhoz im. XIK s"yezda kormnuusticheskoy partii., Velikolipetskiy rayon, Kharsonskaya obl. (Dairy barns)  0 -,T I Is' I V P. (It. - ~ 0 , chumfors. Kuz.-ahtam.proizv. 1 110-5:4-3-1 1 MY 159. Yorginr ~4 WIIIA 1-,?:Io) (Forging)  SHISELAKOV, --F. G. Zonal heating of blanks for forging following predetermined lines. Kuz.-shtam. proizv. 2 no.1,0:35-37 0 160. (MIRA 13:10) (Forging-4quipment and supplies)  85128 A 106 1/ A 0 AUTHOR Shishlakov, P.G. TLE Bending Con cal Par-zs in a Vertical Die r' I _J1 _~D PERIODICAL: Kuznechno-shf-amt)ovochnoye proizvodstiro, 1960, No, 5, i)p. 4:'~ - 46 TEXT -This new vertical bending die is designed for producing truncated cones from steel sheet. blanks. It reolaces the usual bending method for such parts on horilfzontal bulldozer-presses. The disadvantages of this method are; two dies and two presses are needed for preliminary and final bending, the ne- cessity of heating after preliminary bending; manual straightening of -work after final bending Is necessary, i,e., finishing the edges and rounding on a special mandrel, straightening of the hot cones taking the longest. time o1l all operations in the process; the manufacture of accura-te cones is not ensured du-e to possible displacement of the pressure center from the gravity center. In rhe new die tran- cated cones are shaped wi-~hout preliminary bending, with a single heating and a single press run and manual finishing is completely eliminated. The heated blank is pct in a definite posPion on the die top (Fig. 2a) -and the pressure force of Card 1/4  - SHISHLAKOV, P.G. ___ --- -- -- ~ I. . Stanping of thin-walled profiled rings. Hashinostroitell no.8:31-32 Ag 160. (MIRA 13:9) (Sheet-metal work)  S/182/60/000/010/013/015/XX A161/AO3O AUTHOR: Shishlakov, P.G. TITLEt Spot Heating of Stamping Blanks by Given Epures PERIODICAL: Kuznechno-shtampovochnoye proizvodstvo, 1960, No. 10, PP. 35 - 37 TEXT: Heating the necessary spots on forging blanks instead of the entire blanks is economical and particularly convenient in forging shops which have electric heating equipment. Several examples of spot heating are described. In order to bend cramps (Fig. 1) the bar can be heated in two spots to LOOOOC. For cutting rectangular blanks automatically in a blanking press (Fig. 2) the strip is fed by an automatic feed mechanism to the cutting die and passes between two single-loop induction heaters. A relay switches on the heaters at the moment when the punch. starts the downward stroke, and off when the punch rises after- cutting. The feed mechanism switches on at the moment when the heaters switch off and the heated spots on the strip are under the punch. The heating epure fcr rectangular blanks i 's a~rectangle (Fig. 3). The Ivanovskiy mashinostroiteltnyy zavod (probably Ivanovo Machine Plant) uses contact-heaters 2H3-15 (2N3-15) of the "Elektrik" Plant for spot heating of billets for cylindrical-head pins (Fig. 4a); the bil'-et is laid at an incline between the contacts (Fig. 5) and the Card 1/6  s/i82/6o/ooo/oIO/013/015/XX Spot Heating of' Stamping Blanks by Given Epures A161/AO30 length of the heated piece can be changed by changing the incline angle and the position of the point A. No clamping is necessary for the top contact holds down the billet, and electric current through the points A and Al heats the re- quired billet length. The Klimovskiy (probably Klimovo) Machine Plant uses elec- tric contact hE!aters of an other design (Fig. 7) for heading bolts with ball head and square underhead (Fig. 6). Maximum temperature is needed at the spot. where the head with sharp edge passes over into the square underhead (Fig. 6, epure), and the rod must remain cold for easy ejecting and retaining the smooth work- hardened surface, which is important for subsequent threading. Current through the upper contact of the heater (Fig. 7) splits, and higher temperature in the A - B portion of the billet is obtained because of its shorter length than B - A portion, and lower resistance. A dieelectric lining (4) is used in the bottom contact to provent bending of the billet. The electrodes are cooled with ruming water. The tension needed is up to 3 v; the heating time is 9 - 12 see. The last spot-heating example is for bending leaf springs with simultaneous chamfer- ing (Fig. 8), toy hot gas in an especially built small flame furnace (Fig. 9). The springs are parts of an automatic loom. There are 9 figures. Card 2/6  SHISHLAKOV, P.G. New method for manufacturing "ShM ." Mashinostroitell no.12:30 D 16o. (MIM 13:12) (Sheet-metal work)  SBISHIAKOV, P.G. Bending with restriking. Kuz.ahtam. proizv. 3 n0.1:12-13 Ja 161. (mm 14:1) ? (Forging)  S/117/61/000/006/006/012 A004/AI04 AUTHOR: Shishlakov, P. G. TITLE: The advantages of twin die-forging PERIODICAL: Mashinostroitell, no. 6, 1961, 22-23 TEXT; The author enumerates the advantages of'the simultaneous die-forging 'of two or more parts and'points out that with-this method'the labol:"productivity is at-least doubled.' He divides the twin di-e-forging method into-three groups: 1)- combining the components in sories or in parallel; 2) con'oentrie,joirLing of components; 3) butt-~Joining of components, With the first operation'modus the components are placed at'a certain dibtanoe from each other,- their ge Iome~kc' ayes are either' turned or 'not., This. *method is used in 'big-lot and Mad production, e.g. at the 'automobilb plahtswhere -four,wing huts, door handles, hand brake Bhoes and other parts are die-forged simultaneously. The concentric joining of components for simultaneous die-forging requires an outer component with a circular or sqdare'aperture-into which the second component or a number of small components are placed. At the "Krasnyy proletafty" Plant this method is used for the die-forging of lathe parts. With this method the necessary forging Card 1h  S/117/61/000/006/006/012 The advantages of twin die-forging A004/AI04 impact for the parts located on the inside of the outer part is obtained on account of the energy which during separate die-forging is consumed for the extrusion of the inner flash. The die-forging of two butt-joined parts is mainly used for long components possessing a local deformation. Thus the Klimovskiy mashinostroitell'nyy zavod (Klimovo Mechanical Engineering Plant) uses the twin die-forging method for the fabrication of flat springs (Fig. 1) whose 450 face end chamfer was formerly machined by milling. Figure 2: 1. Continuous heating of the center part of the twin blank, a) heating spot; 2. Forging of tangs in the 1st plane, a) and b) elongation; 3) Forging of tangs in the 2nd plane, a) and b) elongation; 4. Cutting off, a) knives. The new method, in comparison with the old one, increased the labor productivity by a factor of 10. Based on this method of twin die-forging the author has developed an automated process of die-forging the shanks of fitter's files, which makes it possible not only to cut down considerably the losses of tool steel - which amounted to 40 grams for every file - but to fully automate the production process. The author presents a technological layout of the new automated process which consists in the fact that the center part of the twin blank is heated to the necessary temperature with subsequent simultaneous die-forgin- of two shanks in Card 2/3  The advantages of twin die-forging A004/Aio4 two planes and separating of the two Figure 2: files. The author gives a short Ifleppepbibbid Y,7jp'eO'c'iPpeduHb1 description of the automated produc- a) tion process. There are 3 figures. ZX011(a (A) yd/ A I'V#Xa 00CM19OUNVO 00 Z-17 IMPAMMO IP, 'A Paippidre Pi Card 3/3  5/026/62/000/004/002/oo4 D2062/D301 AUTT;011: 'Shishlakov, P.G. TI T LEE, I-Iew steels for drop forging 'ZZ, I O'D 1C ~~ LStandartizatsiya, no. 4, 19062, 28 - 32 -~r - : Some new c*-romium-manganese and chror.-Jum-tun-sten steels for forjin- die makirg are reviewed. it is stated that of the 20 existing mak-es o-*;' steel included in ro'~ - 7631-55 (GOST 78341- -55) 25 %' contain nickel, 5 X~~5 (5iChl-,I) and 5 X-.-,,- (5nNT) being most. widely used, but they are not considered as bein'r- fully satis- ~r.actory. The experiments, conducted by several institutes and steel mills, with different makes of steel in order to increase the useful life of drop forging stamps (impact strength, hardness, heat resis- tanc:~, etc.) are discussed. The results of the experiments are pre- sented iin the form of graphs and tables and the following conclu- sior-s reac-ed: Almost all stamps for drop forgings can be made of chromium-manganese and chromium-tungsten steels and they will give Card 1/2  SHISPI.4"W, Forl,int, of' crankshafts for looms. Kuz-shtarr- rjroizv. J no.] 1: ,)-I,, N 16-11 (111,11U, 14:i1) (Forging) (Cranks and crankshafts)  SHISFILAKOV, P.G. New steels for drop-forging dies. Standartizatsiia 26 no.4: 28-32 Ap '62. (YURA 1-5:3) (Dies (Metalworking)) (Steel--Standards)  S/182/'62/000/009/001/004 D04O/Dll3 AUTHOR: Shishlakov, P.G. TITLE: New die steels for hot stamping P-LRTODICAL: Kuznechno-shtampovochnoye proizvodstvo, no. 9, 1962, 06-10 Over 30 new die steels are recommended by VITIINIHASh. The reco.-..nendations are based on the results of investigations conducted at the 'he TsNII chernoy metal- -os~ovskiy institut st,*1i (I.Iosco.; Steel Institute), ~ lu=ii (TsNII of Ferrous Idetallurgy) and other institutes and plants. The major trend in Soviet research is to Teplace nickel steels by Cr-I.In and Cr- -,I grades; die steels per rOCT 7831-55 (GOST 7831-55) do not satisfy in- creasing demands regarding the service life of hot stamping dies and the accuracy oL obtained forgings. The chemical composition of the 3M 955 ~~1955)~-~,4956 (E1956),3W 958 (E1958), 30959 (::'1959),3R1 (EP1 EP2), ,X36M.G~(4Kh3VI,9), 4Y-6C3,AA4Kh6SVMF), 5X4e94M4(5Kh4SV4V:5YAB+. (5KhGSVF), and'5UC(5KhGS) ne~u steel grades is given. The dies and die parts, for which each of the 30 odd new steel grades is suitable, are listed. Conclusions; (1) Almost all hot stamping dies can be made from Card 1/2  SIUSHLAKOV, P~G. analysis method is a basis for the standa~oization - t7 ' -1 ogis . 3- ,~ U--,--hno- -al eqaiument. Standartizatsiia 27 no,4*2 27 A r-P `0. (MIPA 16:4) (Industrial equipment-Standards)  A ~M,AKOV, F.('~ Standardli-,ri:, !%teel sections by stage:~. "It"-ntdartizataiia 29 no.l: 20-22 Ja I- ~,~ (MIRA 18i4)  IJ Nc SOURCE CODL; bit/0182/66/0()0/008/00-",)'/00:~'6 forto"ill~- of [lie sleeves of slidb)(r ~Ia~ in g S proizvodavo, no. S, 1066, 23-26 -S nicUilfor-iii-, bcarin- material, plasticcoating 1'~Ovrs"Oct for Oic precision forging of these sleeves is described. (Fig. 1).. By IAL wid bcarin- without resor4in- to any to dic sleeve to !lie shaft . ns 'LA",;L, 'ni'* hi; dainage (lie fluoroplastic coating. Precision sizing of the dialne'Lers of the sleeves can be accomplished with the aid of a set of dies ;11:c calculated to assure the required -ap between the shaft and the walls Lo redzice ilic bending induccd stresses in the sleeve. 'Die overall thiclaiess C'j.' L!', 0610CVe Wall is calculated as a function of e maximum bendinrr radius of WO C'~ -t;~Ljljc steel base coated Nvith fluoroplastic),a~ vAiich tae integrity of the plastic rkjMJ-IrLS !)reserved. To reduce tfY-bcn= Sduced*stresses in the slceve, and UDC: 621.983  A C C NMR: AP6033755 SOURCE CODE: UR/0117/66/000/010/0029/0030~ AUTHOR: Shishlakov,, P. G. ___ ........... ORG: none TITLE: Dry triction slider bearings SOURCE: 'Mashinostroitel', no. 10, 1966, 29-30 TOPIC TAGS: slide bearing, dry friction, bearing design, bearing performance, bearing material, ABSTRACT: The design and performance of dry friction slider-type bearings are descr.ibed in some detail. The most important part of the bearings is an insert or bushing made of a metal-plastic composite band. The rubbing layer is made of floroplast [an unspecified fluorocarbon) which has low thermal conductivity. To pe-r-it sufficient heat transfer, the thickness of this layer should not exceed 0.05am~ The second layer, 0.3 mm in thickness, is of bronze granules having high thermal conductivity; bronze adheres readily to the floroplast. The third layer (base) is of~ soft cold-r,:iied steel. The bronze layer is fused to the 1-2 mm, thick base. In addition to heat transfer, an important factor which insures reliable performance of the bearings i.-. the intactness of the plastic layer; therefore, any machining of the rubbinc, surface is absolutely precluded, and bearings with plastic-metal composite- bar~ds are produced only by precision forming. 7he plastic rubbing surface is self healing: if its continuity is disrupted and the bronze exposed, the plastic will be Card 1/2 UDC: 621.822.5  ACC N AP60-2-3755 Fig. 1. Cross section of the multi- layer antifriction metal-plastic composite band 1 - Floroplast layer; 2 - heat transfer layer (bronze granules); 3 - steel base. squeezed out from the bronze pores to restore the rubbing layer. healing is limited by the amount of plastic in the bronze pores. 3 figures. SUB CODE: 13/ SUBM DATE: none/ Card 2/2 However, such Orig. art. has:  tal, iliz7--Uor, a1y, -st-abilis;ltion of T71,dro-,-holdic 5-~Its (Interaction of s c-, -".rscnic Can' --c-i, StLte !-e-',a~-m-ical tin, n, un ech,:,rny&ya ;':o3cow, :-~--y 6 110-.7 10,54  Shislia), K. S. "Ways of Increasine the Production of Cotton-Printing Mach-ines-11 Sub 31 YZY 51: Moscow TeTtile Inst Dissertations presented for science and eagineerinC derrees in Moscow during 1951. SO: Sum. No. 480, 9 May ~-~  SHISHLO,K.S., kandidat tekhnicheskikh nauk Electric drive of a new printing machine. Tekst.prom.15 no.10:48- 49 0155. (MLRA 3:12) (Textile printing) (Electric machinery)  8(5) SOV/1 12-59 -3-5058 Translation from: Refe-.ativnyy zhurnal. Elektrotekhnika, 1959, Nr 3, p 107 (USSR) AUTHOR: Myl'ndkov, N. N., Bakharevskily, V. P., and SbLishlo, K. S. TITLE: Electrical Drive on New Cotton Pri-nting Machines (Elektroprivod novykh pechatnykh mashin) PERIODICAL: 1zv. vyssh. uchebn. zaveden-iy. Tekhriol. tekstil'n. prom-sti, 1958, Nr 1, pp 157-168 ABSTRACT: Two types of the electrical drive on cotton-printing machines used at the Ivanovo textile finishing plants are compared: (1) a drive with a 3-phase doubly-fed commutator motor with a regulating transformer (Czechoslovak make, 1955); (Z) a generator -motor -scheme drive with a DC motor (made by the Shcherbakov Plant of Polygraphic Machines). The full range 1:11 of speed regulation is attained in the first type by means of an additional adjustable- speed reducer. A comparison shows that the generator -motor -type drive has the advantages over the 3-phase commuta"or-ry-iotor drive in controllability, Card I IZ  8(5) SOV/1 12-59 -3-5058 Electrical Drive on New Cotton Printing Machines higher speed., and lower electric -energy consumption per unit production. It is noted t!.-)P_t the generator-mc~trjr scheme can be simplified for the operating duty ir Both schemes and energy characteristics of the drives are presented. L. Ya. L. Card 2/2  SHISHW, K.s. Current status Of automatized electric drive in the textile industry and the outlook for its expansion in the immediate future. Izv.vys.neheb.zav.; tokh.tekst.prom no.1:152-155 1()0. iMIRA 13:6) 1. Ivanovskiy tekstil'W institut. (Textile machinery--F-lectric driving-)  S:JIISHLOY K.S. Expanding the range of speed regulation in a.c. conmtator motors. ! z7v, vys. ucheb. zav.; tekh. teks, prom. no. 2:120-1-23 161. (NIRA 14:5) 1. I'vanovskiy tekstilInyy institut imeni M,V. Frunze. (Electric motors, Alternating current)  SHISHLO, K.S.; VOLKOV, A.V. Driv--'ng devices of roving machines. Izv. vys. ucheb. zav - tekh. tekst. prom. no-4:126-130 163. (miRA 16:ii~ y tekstillny-y institut imeni M.V. Frunze. 1. Ivanovski-  !-A !~ 1. _3191N_6(;~ DD ACC NRz AP6021226 -----SOURCE -COD_E-:__UR/03'9_6 / 6 6'/010/003/0065/0066 ALrrHOR: Shishlo M A.- Shimkevich, L. L. ORG: Chair of Physics and Chair of Histology, Fir-st Moscow Order of Lenin and Order of the Red Banner of Labor Medical Institute im. I. M. Sechenov (Kafedra fiziki i kafedra gistologii I Moskovskogo ordena Lenina i ordena Trudovogo Krasnogo Znameni meditsinskogo instituta) TITLE: The effect of exposure of the intact organism to a qonstant maknetic fielron the activity of oxidative enzymes in the livers of mice SOURCE: Patologicheskaya fiziologiya i eksperimentalInaya terapiya, v. 10, no. 3, 1966, 65-66_ TOPIC TAGS: magnetic biologic effect, fermentation, oxidative degradation, enzyme ABSTRACT: Five enzymes: succinate dehydrogenase (SDH), malate dehydroge- nase (MDH), glutamate dehydrogenase (GDH), lactate dehydrogenase (LDH) and glucose-6- -phosphate dehydrogenase (G-6-DH) were'studied after 24 and 72 hr exposure to a mag- netic field (4500 oe with a gradient of 500 oe/ar~- Significant changea were noted- in . the activity of SHD, MDH and GDH manifested by the diffuse reaction of the cyto- plasm and the size and number of granules, greater than in the controls. The enzy- matic activity of LDH and G-6-DH did not change appreciabty.-fhe-author concludes th9t Card 1/2 UDC:.. 612.351.11.014.426  ACC NR: AP6021226 0 th~ magnetic field primari-ly.affects enzyme' . activity within the mitochondria and specu, lates that this is due to the alteration of the permeability of the mitochondrial mem- brane. He further correlates his findings with the observed increase in the phospho- rylation coefficient in homogenates of guinea pig liver cells after exposure to a con- stant magnetic field. [14] SUB CODE: 06/ SLMM DATE: IIOct65/ ORIG REF: 003/ OTH F&F.- 004/ ATD PRESS: 15-,4 e( i; - __ - - ___ I- - C.rd 2121~~e_l"  SHISBLOV., A.D. Preparat-ion of collapsible metal molds for cast-Ing plates frorr epoxy resLis. Zav. lab. 31 no.11:1401 165. (MIRA 19: -11 1. Corlkovskiy politekhnicheskiy institut.  ACC NR- AP5027471 Uj -:,j SOURCE GODEt UFV0032/65/()31/011/1401/1401 AUTHOR: Shishlovy A. D. ORG.- Gorki Pblytechnical Institute (Gorlkovskiy politekhnicheskiy institut) p TITLE: Preparation of metallic disassembling molds for casting epoxy plastio plates SOURCE: Zavodskaye laboratoriya, vo 31, no. 11, 1965, 1401 TOPIC TAGS: rubber, epoxy plastict aviation/ gasoline 11~9,0/~W,97-.',Wc, 10Z,9.5-r-10 00,17-1-14)r- k-~ ABSTRACT: A 15% solution of silicon.-org ic caoutchouc SKT in Kaloshagasoline.. recom- ~�r ,mended as an adhesion-preventing coating for metallic disassembling moldsl cannot ~always be used because Kalosha gasoline.is often unavailable. It was proven that this gasoline can be replac6d by using a 5-6% solution of SKT caoutchoue in aviation gasoline B-70 which is usually available, A higher than 5-6% solution causes beading of the ca-ou-~Fchouc on the mold surface and subsequently on the epoxy plastic plateso iThe preparation of the mold is simple, Carefully cleaned and degreased mold parts are ,splashed at room temperature in the solution and dried for 2-4 hr at 80-90G in a 'drying oven. The gasoline should be pure because admixtures of heavier fractions do not evaporate entirely during drying, and diffusion ~'f vapors into the resin makes the plates opaque and unapplicable. Cleaning the molds after production of resin plates is (done by heating the mol-Jisat 50-60C in the drying oven,, vhere the molds are rubbed by Card 1/2 UDG&- 620.170  L 3058-66 ACC NR-. AP502~471 acetone which removes most of the caoutchouce The remainder Is removed by a school eraser containing no glass. The cleaning does not worsen the surfue of the mold and even improves it. SUB CODEs//,/,3/ SUBM DATE: none Card 2/2 4"  OEMIN, G.I.; PLUZHNIKOV, A.!.; CHURAKOV, A.M., inzli.; ZHILIN, I.S., inzh.; MAKAROV, D.M., inzh.; MBEDEV, N.D., inzh.; SHISHLOV) D.D., inzh.; IGLIN, V.P., inzh.; rEVLAYEV, E.S., laborant;-')CIS,E.L.EV) V.V.) laborant; KOTFLINIKOV, V.V., laborant; TYULENEVA, N.I., laborant Transfer of a hqVing furnace to heating by natural gas with self-carburation. 'Stall 23 no.8:755-758 Ag 163. NIRA 16:9) 1. Moskovskiv inpzitut stali _5 aplavov (for Demin, Pluihnikov). (Furnaces, Heating)  -SHISELOV, G., inzhe Atomizer with a by(traulically locked doubl7 differential needle. Mor. flot 20 no. 12:27-29 D 160. (MIR& 13:12) 1. E"aliningradskoye otdelenive laboratorii dvigateley AN SS9R. (Marine diesel engines)  SHISBWV, G.A.; PRIMMSEV, G.P. Increasing the size of card sliver packages. Tekst. prom. 20 no,5:57-59 MY 160. (MIRA 13:8) 1. Nachallnik chesallnogo teekba pervoy fabriki kombinata "Krasnyy Perekop" (for Shishlov). 2. Zaveduyushchiy tsentrall- noy laboratoriyey kombinata "Erasnyy Perekop" (for Privezentsev). (Carding)  ;PRIVEZERSEV, a-P. SHISHLOV, G.A . - - - Modernization of obsolete carding machines. Tek--Et. Drom. 20 no. 11:61-63 N 16G. (MIRA 13:12) 1. Uachallnik cherallnogo tsekha fabriki No. 1 kombinata "Krasnyy Perekop" (for Shishlov). (Carding machines)  6111 q I I if) If NT ~ D , Orgi.nizations of the Mjm-listry of Constructicm participate in Sovie' -3-.--hibitir~ns ubroad~ Mont. i spetug, rab. v stroi. 24 no.3., :'r , &--' j .E.,29 W PA 15-6) 1. Gosuda--rstver-ny-y--'-Insti-uut po vnedreniya peredovykh metodav rabot i truda v 5troite-123tve Min-isterstva stroitel2stva SSSR. ;Buildisqg- -'Exhibitione- )  SHISHLOV., V. The first Soviet production line. Mest.prem.i khud.promys. 3 n0.4:13 Ap 162. (~MRA 15:5) 1. G2a~.Wjy inzh. Kashirskoy makaronnoy fabriki "Udarnitsa", Kashir, Moskcvskoy oblasti. (Kashira-Macaroni) (Assembly-line methods)  7, Z  I '., rit; Wfl;HEGAROV, A.A., dot,se 1-1 t"ne d4 an- us is and trp~atment of -r-aseF Pru , - -:1 - - - --- cf the Itinas. So-i.uRd. 28 no.12:14-18 D 1. Klltiika obshchey khlrurgii (zav. - dDtsen-k. M.K.Nr-Ld;ze-:yp--v) klin!"'a oospLtal I-loy terapii (zav. - dot:5ent Zriotituta. meditsinskogo i I  SkjSELOVA,--G,N..:; VOTUIA, Ye.l., ling-vist., red.; LEMEVA, N.B.) geolog., red.; D12,11YANGVA, L.G.., red.; BUIJIVA, Ye.D., red.; IAZAITVA,. L.V.., tekhn. red. [Book for reading on geology; a textbook for foreign students study-- ing the Russian language] Kniga dlia chteniia. po geologii; uchebnoe posobie dlia studentov-inostrantsev, izuchaiushchikh russkii iazyk. Red.-l-ingvist E.I.Motina., Red.-geolog II.B.Lebedeva. Moskva., Izd-vo Mosk.univ., 1961. 139 P'* (111IRA 14:11) (Geology)  LURIYE, Ye.1,; SHISHLOVA,L -G. Industa-ial flow-system for the continuous rectification of synthetic aliphatic alcohols. Trudy VNIINeftekhim no.1:66-83 160. (MIRA 14: -1) 1. Lengiprogaz. (Alcohols) (Distillation, Fractional)  S14ISHIYOVA, 11.1- Corn Bacterial Ir-af spot of corn and the possibility of using antihiotics for itE control. Trudy Vses. inst, sel'kboz. mikrobiol. 17:87-99 -60~ (KIRA 151:3) (Corn ',Maize)--Diseases and pests) (Antibiotics)  KUPERMAN, P.I.; GRYAZNOV, N.S.; MOCHALOV, V.V.; FROLOV, V.V.; MUSTAFIN, F.A.; PUSHKASH, !.I.; SLAVGORODSKIY, M.V~; LAZAREV, B.-L.; BORISOV, V.I.; Prinimali whastiye: CHERKIASOV, N.Kh.; ZABRODSKIY, M.P.; RYTCHENKO, Aj.; RUTKOVSKAYA, Ye.N.; SAITBURGANOVA, M.; SHTAGER, A.A.; SHISHLOVA, T.i.; BUDOLI, Z.P.; HENISHIKOVA, R.I.; GORELOV, L.A.; i~,ARKOVA, M.M.; KOUROV, V.Ya.; KOGAN, I.A.; BEZDVERNYY, G.N.;' POKROVSKIY, B.I. Effect of the lengthening of the coking time on.the coke quality and testing of coke in the blast furnace process. Koks i khim. no.9: 23-28 163, .(MIRA 16:9) 1. Vostochnyy uglekhimicheskiy institut (for Kuperman, Gryaznov, Mochalov, Kogan, Bezdvernyy, PokroVskiy). 2. Urallskiy institut chernykh metallov (for Frolov). 3. Nizhne-Tagillskiy metallurgicheskiy kombinat (for Mustafin, Pushkash, Slavgorodskiy, -tazarevY Cherkasov, Zabrodskiy, Rytchenko, Rutkovskaya, Saitburganova, Shtager, Shishlov'a, Budoll, Mienluhikova). 4. Koksokhimstantsiya (for Borisov Gorelov, Agarkova, Kourov). ~Coke-Testing)  SHISHLOVSKAYA, K. Ya. "Functional Ghanr~es Ln the Ifighor DivIsion13 of tho Central Norvous System and the Dynamics of the Blood Sugar Level." Cand Med Sci., Gorlkiy State Medical Inst) Gortkiy, 1953. (RZhBiol, 110 3, Oct 54) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (10) SO: Sum. No. 481, 5 May 55  SHISHLOVSKAYA, K,,Ya. Affects of the highest spgment of the central nervous system on the blood sugar level. Zhur.vys.nerv.deiat. 6 no.2:334-311 Mr-Ap '56. (KLRA 9:8) 1. Kafedra fiziologil GorIkovskogo meditsinskogo instituta im. S.M.Kirova. (BLOOD SUGAR off. of conditioned reflex in dogs) (ILSYLAX, CONDITIONO off. on blood sugar level in dogs)  SHISHWVSKAYA, K. Ya. (Moskva) Study of the forced vital, caDacity of the 1,jngs in silicosis. Gig, truda i prof. zab. 4 no.4:23-28 Ap 160. (INEL-A 15:4) 1. Institut gigiyeny truda i professionallnykh zabolevan-Jy 94-11 SSSR. (LUNGS-DUST DISEASES) (RESPIRATION)  0 good go of 0-00-t-*-qr 0 41 L 4 1, f h h i L r .4 it i y I k j AkNo kit, I I Its 0 0 - Fhp Isms of tllr *11inefinn of the pholiphorrnrence of w1or 4illutioniiA -4.0 S 1 V;1%1l- Ph"It / \,. 01w % .0 0 I." ih, rlmul-it t..... . .. l l) oil 1" 0 o -0-1. mid -pt" all, - 00 'll-lid ... , -"K" N i. -- vi-- ,o 0 -I- I'hv -lawlsoll fiah- the -1-swilt"I 1- .1 00 / e -.1 -fic, mrilli th'- I. -p a-1 - 0 0 h.- -111 .1111v .1, 1. ..... 1-1111, mid 00 OR- ,( I.I.Sti'l %pt. mr tilt, tp-ird from 1h.- 1-lia 00 j 4 Ow kil"I in lultsid. - 0 Nfll,kal ot 00 -40 00 of .400 0 b0 00 loo 00 t 400 0 o o o 0 * 0 f s g 0 0  0 0 O's 0 0 0 0 a 0 0 0 o l IQ it if [I it Is 16 11 IS JD , 21 U 0 IA 11 J6 17 n M 1) 31 IJ U lit M It N 0 It i Aj 0 A , A L I t If L~.-A- L.1 u a a w (f t A JL- -I- It- 11 p a R1 1 7 A~ , , - A campartiton of objuirplion rand I'lutirracI-ricp spectra of m!bTacene in dille,m)l stairs of 441firgmillon ~ A 41 Mir 'Illov,kil. 6-1-1 -od I % 1, 13.211 .1-1 A -Ii krMill F1101,11" Ilo. 41-11-1-11 mol ti ... ~I, ~ I to of Antlo.."lle ,ij-4 al~ ol"Lil I,, tit,,, (mind liv previtio, vimkrr~ Go Iwvw;,iLv m4n,. ~.l Anthia 0 ctne and for ,rv,t, amhruv~iw Uav-),ngth oux Im Aliftt'l 1110111~ it ....... wl';~ h-noh, I orlati". If III,- al-oplo'll hamf. .f o 00 o OdTrt. it ... 11 11141 (", -III, ,I aoll-l-w III, ~$ j :181ol. III thr iloot, 'pe, fill", ..I .1o All 11121-1 0$m1 I))- m ]I, 'I... Ila .4 -lo, I. m. ow mil"t'lutio" ,( f.. I'low-.3%. .. 1. 11., 1,'- :0 a oo ll.tI-. Ille 'Ik"'Im I" I,,-- it I lo~, ~tllo -00 Iit, , and oolg'. tol., ~, 'IX'llo... I Io- 'th, oo trum of ale. -,fit, ,I antitia-to- pn--t-, I, iml 00 I.IAtI.~ jIjjNIljtV If I Iu. p , 1, tou ~4 - -t Art thravetw I.-ha%v, tit ilo mo I, III.,! ..f -In, 00 vall Valk-cliburgit Of i zoo 400 7 :.o 0 00 0 0 i L IIIALLLrGICAL WERAILRE CLAWFICATICk go 3 , D u 1 " , , p aPt ff It All L I. a Ow a I Al I 34 La ~Q 0; " 0 0 Y 0 0 0 0 0 0 0 0 0 o IS a & 6 o 0 0 0 0 0 0 0 0 0 0 0 0 Ill 0 IF 0 0 0 0 0 0 ~ 0 0 0 0 . . 0 : 6 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 4 0 a a 0 4 0 * is so 0 0 a 0 0  WY19MW W- 'W"WI W- .I if it u U W is W I? is at U a 111, 41 U a a 04, 0 111 U- 11 11 if A a L a L or U a If F a A 1 1. 1- L L k A I A-L.-L 7'j* 00 693. Lurnintacent- Photographic blessurement of Utra.viclot and A. A. Shishlovis 00 1- Energy Dialribution. L. N. ArutWeva Ilk 00 J~; I (1j"AL4s') do I'Acad.d'es S'le"crio. U.S.T.R. ff. T'jP-1 183. *4 1117. 1037. IM Ultiflilh.-ThO 4130101`11 dCkCtil)C a 111VIII(ki U1111-11 town tilt, visible flutiresceisce of certain solutions for the olmemation of the intensity .00 dittribu(ion of the inifilrot u.v, light. The intensity of the thiorrscent 00 JA light is 1110'aiumd i1o.1 it forniula Is Niven whit 11 tunnucts this tilts-lisity wilh 4*0 go J I lie Fvlati kit Clu'rity 111411111111 It til Ill I lip MIK.'Clikiiii. 0#0 00 a the v4riati,o con-litkmis which the duorment molution has to fulfil lot onlrr 400 t,) give saa-dactory results. It islounif that a thin film nismijuin saixylato 00 3 "1141 gelatin on a quarts-plate satiotfies these conditions. A rmipe is given collill 00 coo ba the prep.ArAtion of the oialution. For the attual olmervAtion (lie liho is to himight 111h. .4,11tut %%Ill% All o"Untry ldulttvraphic plaw. Tit, iiumm. 00 0 0 z ceme spectruin of sodium salicylate, lies in the blue with a niaxim--in at 2 9 45(m) A. This inethod is applicable to the region 2000-3ow A. The a,.thors ha%-e nmuoired the rnerKv distribution of the continuous It, woe spectrw and find satisfactory agreement with previous soilli :11 eXperiMental re Me* ~UjtS. to** it a 811MAU443CAL MIRATLAO CLOIJOWS11" 113. so-Inv woo -7 GMJUM~ U a AV No 'It &U, Ira INCE Ogg Man "WKWO Ilm 4 d44 0 0 go 0,0 00 111, 0 0 0 0 0 a 0 41 0 0 0 0 0 * W* 0 0 0 0 0 0 4 0 9 0 e ST'! . 0 000 oj*** 0 0 00 00  0 0 0 0 0 4 0 0 a 0 0 0 Os 0 0 0 o o 0 0 0 0 0 o * o 0 L C_ 0- - 6a: f UGMxjt UUjd 13kvs Iwo $1 41 U At a TV 4 A a N IN EX AT U n -_ - -. !-! - ~ 0 7 Il PI- It'll% got 0 " 900 . 00 : 00 4" q 0 go pgo as .114,1111tiblp v v p s -V -sa3uwmns 10 U'DRwnm ulp & P p paw tropm MIA 00 00 so- .7 00 00, 00 r00 00 n m .1, go vt 7 1 11--1- 1 A 4 1 S 4 h 1 4 11 1 '1 T v 3 1 1 Se l1rf1l.(L4:#? fin. 11 .. .. .. L'o 0 0 0 0 0 0 0 0 0 e o O's  - a .1 T 11 is to U to 16 it IMIT. r rrm, T A 11 L 8 L-1 -LIA I X N p a a 1-1 . V~ Ill- LA-l"Am a a a Is. I oil --p I.P v0ple) 011.1#1441 ..D of. 00 0 0 A c -00 nM PhOtau-b-CM1111" of deciftabUo odaUm& Pari L B. GORIX).4 Amn A. Surfamovaxy. 31im, phys. Ukraini,sm s.s.R,. S. I 4 PP.91-941,1039. In I'Aftsixotim. fli- U01#k- -00, 0 and cu I'# In water and alcohol Solutions show that where the formation of .00 a complex should lic expectett, corresponding to forniation of a pmtmtive go* la~cr routul the cation. the miluti~%n Is usually photi-ilunimm-ent. D.S. so 00 a9: 00 go 0 00 0* coo Ime* A S a S L A ACTALLISOMAL LITIVATIONE CLAISWICA TICK OW -19 148Q4" .1 t 67 -, C-IF 0 If 0 0 it 0, it Or Or a,K a it 0 000 -0 0 0 0 : 0 a 0 0 0 0 0 a 0 0 0 0.41 0 49 0 00 00 401  a r 9 1 It ff 4 v 0 aA J_~. SVectrophotometry of Itight oti low i A. a I'mRs. Ukram I,qd, Ss. 9. 19 '.!7 PAv,, 00 1010). -A new PLctrimhotouictcr whwh tttthtc~ 40" of 'ID the light energy ~ Lmniltaml with 6% in the K ,cn,g- B. C. p Martens app. iN dc~cribcd. ve Os 00 00 ip 0 - L Sk lo k ~z I 'a j j e v ".A5 v 0 Its* t T & - - - -- , - - I - - ; tt It 11 1 1, t. it It 9 K Ct 3 It It I 4n - t 114 0 0 Ole 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10,0 0 0 a IL 0 0 0 6 a a 0 41 0 0 0 0  0 6 K ti is 1. 11 's it X; Is 11 Tl A 6 14 1l It 4 L 11 1; 1; M h U it M 6, 11 1; 4) M 41 ro J. Id I. I L A j L 1. a ft Q R I I V Y A T t AA Off U LID If Phot9funsineacence of solutionis of thallium salts. B. -00 All 0 Z Y i 1 1 N' * P'Y " CV =Q 7~;. 7 ~ 4 . S S. 24 3, . G. i b (i .n); f ( ) ' 2 0 Using water free of the '*blue fluorescence" 5 V wwr. he r X to' values -arc approx. 1, 3.41; Br. 0.21 Joy, t b .9 ;W~;d C. ejW spectrograpitically the fluorescence spectra 011, 0.45; Fell, 0.2. G. and Sh. conclude that the emis- - Z so solns. of a tuge no. of pure 71 - 111a. Sa and In salts as 0 sioncenter is the hydrated TI' ion. Ions whose polarization 00 well its of mixts. of TI and K in th~.ir mixts. with K and Li is less than that of water fir.Auve no effect. Ions with a .0 0 C r halides. The expil. dlita are shostrii In 14 figs. and I table. greater polarization cause quenching. The life of the ex- . ; ' All them salts show intense fluo".ence the max. of which Illirs is about 10-6 sce. ! -00 cited state of Tl*(11,0). and 04 At about 410 mm Is practically independent of the anion and F to the case of Cl, the complex formed contains triore CI 'YX90 00 J the corsets. used up to 10-1 molar. The intensity of sons the greater their concn.. and the life of the complexes ; urninescence attains t 15 X 10 " mols-A. TICI, a max. a increases accordi"gly. F. H. Rathmann 06 hifted to 6 X 10-1 by addo. of I X 10-1 mob. KCI. For CIO,-. AcO- and SO,-- the fluorescence is violet. 2ddn. of alkali or alk. earth ions has no effect, Cl ions pro- duce a blue fluorescence, the max. lie at 437 and 450 nip, 0 of the lacrewd intensity is a linear function of the TI-ion concri. and of a Irsictional exponent of the Cl-ion concu. to 10-0 molar conciss. quenches Addn. of fly Ions In fluorescence, more 0, on& then produce a green flunics- I cence, A - 493 in,,; the concu.-Intesisity relations In- f dicate that the bearer of the luminescence is the 710ri- 00 ion. Addn. of I ions quenches fluorescence. which does not reappear at higher concits.. Olt and Fe* I ions also act as ZO 0 041 J quenebers, in low ronctis. they prcduce no effect on file ;10 0 400 shape of the absorption spectrum. On the assumption that quenching is due to collisions of the 2nd kind according to ---Of A S I S L I L#TtMAT-f CLA$WICATICh .0 1 I t "A '1 A 1 ) 0 6 A 3 f, if a a a a a N. r) 0 411; 0 * S a 0 0 * a * o 4 1 0 o s 0 0 0 of 0 00 0, .0 o. 0 0 0 0 0 0 0 0 1P 0 0 0 * 0 :j: : 0 0 s 0 s 0 0 0 0 0 o 0 a 4 4 0  G (~ 73- X !.t' I - ) B. YE.; SfESHLC,:,'-,KIY, A. A. Kiev Grtic- 1. .I laboratory, Tnst.. of Ph-,sics of the Academy of Sciences 11krainJun SSSR, (-1040-) "The Pr-otolumneic(ince of ",f~lutions of Thal.lium Salt.s.1, Zhur. Fix. Khim., Vol. 14, NIo. 11, 194,,  V w A 0 1 a 11 u 11 Is IS 11 U U 34 9 IS 9 X P All 41 Q 0 1116 lk- J- a 2 4 j 'If Ak& jPVq "Ofill I 1 31 , 535.374 CaMpWathe MWY of O*k*AWWWftM ill HWM T vW wN nbOw a( thmMm vsks. K%*c(HLvNKt% L of a : 1. 1.. AND Smumovmv. A. A. CJL Acrid. i ! Sef. VX5S. spacura invcst*doqs ot aqwum sohakm of tha he" and suipbsto of 71. pardmilarly to obs-C ft .00 etroLl 0(ammtmtjon of rmiSn km In ft Wution. The dgta 0hajaW wem amV" with availabk 60 smtral data fix aymAhm.M lumkopborm The tid i i h - . as s that n t e so prindpa cmdullm wdvod at 1 0 ~ dw ft" whakxl~ a'a Cadon 71 + is the WC11 as card" 00MAkelacm. A. 9. T. of Of S &ITALLURGICAL LITIMATUAll CLOSWICATION ts - Le L, T 4 411API a" Q.- 411 ILI 8 A' 11 jg K' 'C In I ZA V a 5 a Chi 0 x IF I it a 9 a a 2 a MAT I I 0 0 0 0 0 0 9 9 4 0 0  *!a 1) u x 19 a 11 u A-A-L a L -A Q it -.1 -1- -m- _it -s a a A .1423 '-sa 00 aw"m 49hp. -00 lion of It+ MAIL KOULDR4 1, AM SMSW LQVWY.XA- CAACOISef URA35.11,pp.2W 41 Al 24(k I%L-L%Kfft VWW invoillotdom Ind. the ultra-viow PDA 0( ft 4WAd= SOKUW% and *a nxdmwmft of the OL valm ot to W yitm ror the cmilmiM WoMm a a *bob, SWwWm mww -00 %%" It VJft 2q- 110blift 0( "0 OW 4 mLmd eq, go 0 am&mm kdow: , Adeedw, - of - Too + Ka. The --so or"Wowyw w" bow on "awwWwammunwaftafftemn ywrortb, 'a s, molutim Any-domw od am rot om"xim wk, lkmu f- *I" ths )IOM is kwaft no 00 YkW - -kubWd rmw the &bL "W., ~=. Mwts obftkwd am w out in a tab wkkh gmw~ 00 bp* 00 001 ywd Www sm qAwmo b In&UMMd by (he oonc, of rjw C14~ in SchakwL A. L T. (,*a w It An a CM a ame is x No 0 1 U u S kv a deg j, It a as 0 0 9 9 40 'a ~40 s. o a s a a a 0 0 0  0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 a 6-0 0 h 6 4 m r I j 0 04 14 W (t b -lip *0 Evalsalm of a so bands by solutions of Ce salts. A. A. 06 ==U J. Fxp(l. TA-,ri. 11hys, (U.SAR.) 13, - ~~ 7-8. ~UW -.44 IvIJ). -I-lic aborptiou -00 of aq. solu.. of the halides. sulfate, and nitrate uJ 0# TW711"'were studied. The inechanisin of the phato- 00 lumincitMitce IuVrgvci the ion Cc' ' ' aild it% hell 4 f', go A but net any conipIcz pr(xlucts that ittay be forined. Ceand Ia wilts show nrarly thr anic ah.trptinn jxvtra, con- .00 so %,tinj; of 4 diffuw Wmk Thv ~JWVUA Of IIIV 1-3y'l. ~11 ~ go 4nd thtp..c of conol. -)III.. tit watcr ot tit Wrate or pho- hJtC UJIUS. UrV VVrY SnUdAt. rit, to 0 '1v'-ra are vrry 'ImbIc as v';mp4r-I t" t1:- for Tl' Vb. =00 00 J Rathinxin Zi 0 0 go 0 -of f -00 ke be 0 00 too -r T- 71 IL ctvo~vm wilt W51 "tI:I ItN,Klzl 1 1. dna 0 0 0 0 6~0 a 0 0 0 0 0 a 0 0 a 0 0 0 0 ;10 0 o o 0 0 a 0 0 *00 9 0 4 0 4~ 0 ime 0 *ale 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 oko 0 00 - 0 6 go 0 * 0 0 0  0 0 0 9 0 0 0 *411:14 0 0 0 0 0 6 6 0 a R, **so@ else 0 0-0- x I" ~' a 14 -ADA "If. OD a p , j I , , I % I . So A L L - L -f k- It l, 5 A L t a A. A- `00 00 e 00 -.00 PbOtoluminexcence 01 heavy metal Ioni in liquid and 99" golid 11011ttions 9. IMIS Call hmr ill, '--ph Im, a ....... . S. PA,no 00 00 00 0 0 Zj" -!coo .*of :00 1 Nee 001 oof A S It - I L ITALLU1'41(-L LITFRITLRt C1.11W.C.T10. 0 0 S' K' It JWI I It N 9 1 W q It it 3 1 1 11 1 A 4 0 0.0 0-01 0  ,,Ab=r=x ctta e4 chlorine "Its of thallium and lead all go,, A. A-ShilitiluvAil, 1. 1. KomilletAo, .Ind M. 11. Belyl (Kicy Vniv.). /=,,I, Akad. V4uk S.S.S.R., Ser. Fix. 12, 641-7(1948).-1t has been tAtel liteviously (Kondilenko and Shinhiovskif, C-1. 37, likill) I hat phatoluminewcucc tit ail. milits, cuntil. TICI i.4 (lice to n* and that its bond With Cl- US CleCIr0,tAtiC character. No relation bct-"n the intensity of radiation and the Conco.of0cobldlcobscryed. Absorptiontarasurement-% weir made on 2 X 1U.-4 Al"TICI with progressive alfdn.' .I KCI. With incr I Cl- the absorption is TAIng Cotten. a a Also shifted tow- longer wave lengths. llydrit"I llb - - does not, lutninewe; lumineserrice occurs when Cl - t, added and the intensity is proportional to the Cl - at low 4,nocint., intlicatins the formation of PbCl* and neutral PbOl. Alitivirption meaoircruent- were made on MCI, "oll 11,1, 'Alth 4111111. of K~'l Or NISCIp 1411(cloof moins. it lnctCAIC Of Pb in "Ill, with r%CV-- Cl - doV% Hot Modify the xurption spectra but hlcrca~ of C) Sloilts file curvpq lii.ards longer wave lengths. The r"tilts can 1.-e inter. pr led as follows: the shon-wavc bartil ( --A-Ng) mis) isdue to electronic tninsitions of llb**; the long-wave band I- tIM-270 tit.) is due to transitions in the PbCl ' tool. .mmlise of Cl - furilis it,, iolliv rnv,,hn~ --und tile PhCl .101. and thus; causes the d'f tile %pectrilln, S. llakswcr   YJ s s F35.5142 "falol. calculatians COLIcervilng. and llivestiliation 64, :2 POlaYlUr At the lXr.1LOj_ kv. Akad. Mauk- SSSR, ser. Rx., 17, No. 5. 660-8 (1 S153) fit ROsIdn. Formulati irc wotked out 176Y the dwva ofp_qlyrjzL._ --- flon 11 of light pmwd by a plic: of platm W~afiis - adwvnwl~ for abimption in the plate3, R;ld Inw., fercitc,:t fit flic thin laya.,, o(aIr bei%wen them. With Proper tlimcmioning of tile polarizer (thirknuss of tile plzitu:i and of ific air ipace bm-mi them) thost two cricai cim incr(ase thc valtic of P, :1nd ix, light,' incident at th-, lIct:wla anl;lc on a pair nf!.~ I-tlium , platc~, should Conic otl( q9-51"' pvh1tiz,:d: which appa).ximaidy L:anfimu-J by Thc fom%lu- L!c Jcduc.,d afc fotiiid I(-, :cpmducc IeSutt-;, '.C.. cul. hc ~:viatiwl (if P %..ith tile anglc of A diagram of (ht arrange- Wont for ri of tiv, plitriz"tiott of i.r. lk,ht OY a I)il-- UC i-- shown", J1. k:. -41milAy 9"T  vi K S'R ; -7-77 Adom' tw nee" wt;t Alto f Wift -rAEuj JM~jxsv# -114uldq:.,D.-V. CvrpLTA Am) A. A. Sftis~SKI A This is an impt on Obreirrxv's (I 94-5), method for, detinnining. rc!'ractivo indiccS of liqulds - - cuvctte for contzining the ti*t and rctertfice liquid3, - - of thc-thickoess of the liqui&, known nFrActivc index, - th ~- method. of determL lie o a -of the Werf, the, abi6lute IvA f the', rder bands)'by rotation.'al' the -cawtte--ftough a srnall, accurately nicasuread ap -Ldc as to changa th6 optica thick" ss of I iq u i d trawm and fin4l R .7 IN m erferoill-tricaRy to NVJI 11) ;A few units In ihCsimh plut, ai~ etscribed.- MVRRAY- q  SHISHLOVSKIT, Aleknandr Andreyevich Academic degree of Doctor of Physico-mathematical Sciences, based on his defense, 13 December 1954, in the Bouncil of the Kiev State U imeni Shevehenko, of his dissertation entitled: "Optical research of luminescent solutions of electro)ytes" and Academic title of Professor. Chair: "Optics." Academic degree and/or title: Doctor of Sciences and Professor SO: Decisions of VAK, list no; 17, 9 JV1 55, Byul2eten' MVO SSR, No. 17. Sept 56, Moscow, pp 9-16, Uncl. JPRS/IqT-435  USSR/Chemistr7 - ArAlytical chemistry Card 1/1 Pub- 43 - 94/97 Authors S Shishlovskiy,.k. A. Title t Miorospectroabsorption investigation of Tl and Pb halides Periodical Izv. AN SSSR. Ser. fiz. 18/2j, page 2-98p Mar-Apr 1954 .Abstract I .13rief. sumnar7 is presented of the results obtained during microspectro- .absorption analysis of thallium, and lead halides. The special arrange- ment constructod for this investigation is described. The three types of absorption centers discovered in the halides are explained. One USSR. reference (1952). Institution : The T. G. Shevchenko State University, Kiev Submitted :  USSR/ Chemistry - Spectral ana:~ysis Card 1/1 Pub - 43 - 95/97 Authors B~relyy_. M. U., and Shishlovskiy, A. A. Title : Absorption spectra of alkaline solutions of Tl and Pb salts Periodical : Izv. AN SSSR. Ser. fiz. 18/2. 298-299, Mar-Apr 1954 Abstract Data are presented regarding the absorption spectra, ion bonds, covalence and chemical associates of alkaline solutions of thallium and lead salts as established through spectral analysis. Institution The T. G. Shevehianko State UniYersity., Kiev Submitted  'U M-1%ysics Card 1/1 Pub. 43 17/62 Authors i Gorban'. 1. S.,, and Shishlovskiy, A. A. Title I Anomalous light dispersion in solutions of complex organic compounds Periodical I Izv. All SSSR. Ser. fiz. 18/6, 676-677,'Nov-Dee 1954 Abstract I The light dispersion in solutions of fluores-zein, iodo-eosin, fuchsins cyanine, rhodanine B,'etc., was investigated.by means of a combined spectro- meter/Itayleigh interferometer. These organic compounds were.choseti because of their known simple absorption bands in the visible zone of the spectrum. It was found, in'contrast to vapors w.ith lined absorption spectrumj that the dispersion curves of the investigated complex organic compound solutions. have an asyTmetry within the simple absorption bands and that the maximum of the absorption curve is much better expressed than the minimum. One USSR Peference (1953). Graph. Institution The T. G. Shevchenko State University, Physics.Faculty, Kiev Submitted mom  USSRkhysics Analysis methods Card 1/1 Pub. 43 - 18/62 Authors I Shishlovskiy, A. A. 'Title I The method of concentrational optical functions as a phys-chem. analyeis method at reversible chem. reactions Periodical I Izv. Ali SSSR. Ser,.fiz. 18/6, 677-678, Nov-Dee 1954 Abstract I It is shom. experl.mentally that the method of concentrational optical functions is well applicable in such cases where the optical characteris- ties analyzed remain qualitatively unchangedj since they change only quant- itatively. Examples are also cited showing that this optical f'Unction method can also be successfully applied during photochemical reyersible re- actions and in cases where the equilibrium of a given system is disturbed by the change in temperature of the solution. One USSR group reference (1940-1952). Thstitution The T. G. Shevchenko State University, Physics Faculty, kiev Suimnitted  nIrs-I'Mmly, USSR/ Physics Card Authors Kundzich, G. A. and Shishlovskiy Title Vaviiov's law on constancy of quantum outputs of the photo-luminescence of vapors of organic substances. Periodical Dokl. AN SSSR, 97, Ed-~3., 429-- 432, July, 1954 Abstract i Describes experimental work performed on various vapors of organic subst- ances in order to find out whether Vavilov's law on constancy of output quanta of photo-luminescence of various organic solutions is applicable to vapros of organic substances or not. Diagrams and a table show re- sults of the experiments. Nine references. Institution : Kiev State University, im. T. G. Shevchenko Presented by : Terenin, Academician, March 31, 1954  Category: USSR B-11 Abs Jour: Zh--Kh, No 3, 1957, 7643 Author Shishlovskiy, 0. A. Inst X~iev UENV-e-r-s-11-y Title On the Utilization of Optical Concentration Functions in the Structural Analysis of Electrolytic Solutions Orig Pub: Nauk. Zap. Kievs'k.. Un-t, 1955, Vol 13, No 7, 63-79 (published in Ukranian with a Russian summary) Abstract: A method is proposed for the optical determination of the stoichio metric composition of the simplest chemical compounds formed in reversible reactions. The rnethod is based on the analysis of the functional dependence of the optical properties of the solution on the concentration of the structure -forming elements of the solution; the df_-pendence must be linear. Experimental data obtained from lumines- cence, absorption spectra, and refraction measurements for solutions Card 1/2 -3- Category: USSR Abs Jour: Zh--Kh, No 3, 1957, 7643 B-11 of TI and Pb halide salts are evaluated. It is shown that association of various types occurs in mixed T1 bromide and chloride solutions containing an excess of Cl-, F-, and OH ions; when an excess of Br- ions is present, association of the type TlBr2_ has been defin- itely established. In the case of aqueous dilute solutions of Pb halide sa 'its, the cation is hydrated; in the presence of Cl-, structures of the type 'DbCl are formed. In alkaline solutions of Pb containing an excess of Oh , the formation of associates of constant stoichiome tric composition has been noted.  Abst Journal: Referat Zhur - Khimiya, No 19, 1956, 60765 Abstract: optical centers ef these salts are the cathions. In SOlUtiOD the cathions yield practically no bonds of homeopolar nature with other ions and thus liffer substantailly from cathions of heavy metals. Proximate order araund the cathions plays a certain role in these instances also but it does not determine the position and natiare of the spectra of the givdn ions. Measurements of quantum yield phosphoroscopic observations, of the nature of elemental emitter according to wide-angle :interference, lead the author to the concl-_is~`on that in al~jof the'l-vestigated ins-ances there takes place a dipole radiatioii-of cathions caused by per- missible transitions of electrons from the external electron shell 5d to the inner, well protected electron shell 4f. Structure in the spectra, which nctwit~istanding-their diffuse nature can still be detected, is fm g.--~~-d ag~_-ment with that which is to be ex- pected in view of the theortj,. Card 2/2  USSR/Optics Abs Jour: Referat Zhur-Fizika, 1.957, No 4, IOL30 K log k changes fro-n 3.98 to 3.88 "k is, the absorption coefficient). Mien the solvent is diluted with water, the bard changes gradually gated Fb-'I- ion. The absorp- into the absorotion spectrniza of the hydT tion band of the alkali associate of 7,~ in a glycerine solution and of the chlorine and bromine associaLes in 50% aTjeou3 solution of glycerine shifts towards the longer waves and broadens. The absorption spectra of chlorine 'bromine, and alkali- solit ions of lead were investigated at tamperature from '20 to 980 and from -2-'5 to -140. For chlorine and bromine solutions of lead, there is a lowering and broadening of the band with increasing temperature, and a narrowing and rising of the band with decreasJLng temperature, The spectra of the alkali solutions :,.hange little with changing temperature. It is concluded that aqueous sclutior-F. clk the -=alt& Pb (C104)2 contain hyirated ions C104 and Ph+. The formations of the associates (Terenin A.N., Uspekhi fiz. nauh, 1937, 17, No 1) and transfer of energy does not. take place. The shift of the rrax- Card 2/3  USSR/Optics Abs Jour: Referst Zhur-Fizilka, 1957, No iL, 10430 K imum of absorption upon change of solvent is explained by t~-.ie elec- trostatic action of th,! mol-culec of the solven-r~ on the -Pb2-- ion. From the data of the t-'=p=:ra+.ure meas:uremv~nt~ it is concluded that the a,-.aA, Of yt~~~ witt, tha anions, G1 , B-- , and OH are not strong, and a r3lt is Played in thsir formation b, ~- y ',he i ons of the nearest order and partially of -;he fartb~':r r~rlier around th~ ion It is concludF~d ~,has t-11=5 chanae in th~ ECD'-zorption with -4,ar.- gin.- t-empe-rature is not th= res-ilt cf -the sm-earing of the energy levels, but of th~~ -4,aakening of th~~ bond the ions: of -rhe associates. The strongest associates ar-:- fcrm,~-7-d in alkali solutions, next in low-concent-rated sol-utions, and th-en in .--tr.Dngly concentrated halide solutions of leai This is confirmed by the presence of lu- mine2cence in c-hlorine solutions :if lead. Card 3/3  USSR/Optics - Physical Optics, K-5 Abst Journalt Referat Zhur - Fizika, No 12, 1956, 35791 Authort Idsitsa.? M. P.1 Shishlovskiy, A. A. Institution: None Title: The CalculationY Preparation and Investigation of a Polarization Pile Original Periodical: Nauch. zap. KLivalk. un-t, 1955, 14, No 8p 141-157 Abstract: A theory is given for a multilayer polarizer consisting of any number (m) different non-absorbing thick plane-parallel layers. A separate analysis given for the case of identical absorbing layers. Equations are obtained for the intensities of the light beams, reflected or transmitted thr;-gh the multilayer pile, and equations are given permitting calculation of the degi?6e of polarization (Pdm) in the absence of absorption, using a glass pile as an example. Its suitability is shown for all the -working range of angles ~2. The following results are obtained: Card 1/2  FD-3209 USSR/Physics Spectral Analysis of Liquids Card 1/1 Pub. 153-18/28 Authors : Gorban' I. S. and Shishlovskiy A. A. Title : Two simple spectro-interference methods for studying dispersion in the visible and ultraviolet spectral bands Periodical : Zhur. Tekh. Fiz., 25, No 7, 1297-1306, 1955 Abstract : The first method uses Fresnel diffraction on the boundary of two transparent media. The other possibility consists in measuring of dispersion curves of liquids and solutions without previous knowledge of their refractive index. An assembled Rayleigh type interference meter was used. It is also possible to study this way the anomalous dispersion of light in solutions. Five ref- erences. Institution: -- Submitted : July 4, 1954  1 .11 1~ I I i - 1) ~- ;- ; - --; I / ,~) f -f ! ~- ~~ F i '- ;- I I t ~, I,- // KUNDZICFl, G.O. [Kundzich, H.O.1; SHISHLOVSKIT, O.A. [Shyahlovslkyi, O.A.] Temperature dependence of photoluminescence of vapors of Pol7atomic organic compounds. Nauk povid. KDU no.1:19-20 156. (MIRA 11:4) (Luminescence)  I I-1, - --_~ / I- I,. _1 // / ,, j-~ ~ j I ; I t, / 1), LISITSA, M.P. [Lysytaia, M.Pj: SH1SHLOVSKIY. O.A. [Shyshlovalkyi, O.A.] Spectrophotometric method for determining the polarization degree of alloys. Nauk povid. KDU no.1-21 156. (MIRA 11:4) (Alloys--Spectra) (Polarization (Light))   SHISHWVSKIY, A.A. Comparison of the absorption spectra of dehydrated mic,rocrystalB of tballium and lead halide salts and of alkali balid phosphors activated by the salts of the above metals. Opt. i spektr. I no. 6:765-771 0 '56. (ME-RA 9:12) 1. Kiyevskly Gosudarstvennyy universitet imeni T.G. Shevchenko. (Lead halides--Spectra) (Thallium halides--Spectra) (Phosphors--Spectra)  GORBAN', I.S.; SHISHWVSKIY. A.A. Rayleigb-type mirror interferometer. Opt. i spektr. 1 no.6: IB11-812 0 '56. (MI-RA 9:12) 1. Kiyevskiy Gooudaretvanrqy universitet. (Interferometer)   L/ B ,U&IR/Physical n, emistlry - Miol.-clate, Chemical B:,_nd. - Abs Jour: Ref-arat. Zhurmal Rhimiya, No 2, 2958, 35/18. Author : M.U. Bilyy, ishlova Inst : -Kiev University. Title : Absorption Spectra of Thallium and Lead Alkaline Solutions. Orig Pub: Nauk, zap. Kyivs1k un-t, 1956, 15, No 5, 47-52. Abstract: Data concerning the absorption by chloride, bromide, iodide and thiocyanate solutions of P.- are quoted in the paper. The energy structure of the Fb cation '-s showing it-s-0-F in all above men- tioned cases. Consequently, the Fb ions beloaging to the com- plexproduce compounds, in which the individual behavior of these ions is preserved to a certain degree. 'Me study of absorption by alkaline solutions of Fb salts showed that extraordinarily strong complexes originate in such solutions, and that the bond therein is noear the. homapolar one, which is irrAicated by the stability of the corresponding absorption band (Max.) Card 1/2 -9- USSZ/Fhysif~al Chemistry - Moic-cul-e, chemi4za-7 Bond, B-4 Abs Jour: Refarat. a-unal Eyjm! ,ya, No 2~ 3,958, 3518. rM) at 'M2'4-a-'s OH iM gx-.!at Margj~"B. A C=Ple--f 'with a ifeak is produco-~ in tLe 7ase of alkaline ,';~!,Uti')Ds of Tl salts. This is a-78-3 viFibll-- f:?CQ th:~ behavior C~f a (_',I_=teAn abs_):rp+,i0r- ba-MI ( >\ =256 m,,m). The c-mclusions r~-__ ga--dir-9 the O=Plex st-_*m4~th are absorption measurr-_- Ments of polyaniom sctj--.jt�,-,as of tl,_a ypt M + KOH Kg 1~ as we:,", as .,y ",he 1umi:ae.-3ctzj.35 st,-j.(ty Of &lk&Ljne pb arj T, 801,1tior Card 2/2 _10-  f o"es oi the. jz~,bso`* n f Of SQW gn HumVd IL,,O~ . M. I A. k i * p! G Sh e&;4 I s i ki Kib I r z D t m . 4, s . q;'411 , ap No. 9i zaSmikAh "F 4Z462(1956).-.The light ab- 'Z I - .Pbl,, w,& Fb(CNS), sorption 1 ~ . " 14. 1vas, found that-a-certhin paft amal~xed. in so an I y state of the Pb't ilf *'N41ica~i~p Lr the cuer ttw g ~ _~ me -d the 6 i;d ~ a . so id, `r~ - - u - will ' ; tz 1 . T V , 5 - l 5 arls pa 0 r L pou I * . R Add~ d I to -mkh - Pb I I MH dlvidu~l - 6~: l v% Was. In v#idus coutb , am r6raLed, the bb~ds 12 vthich are prac~cRll V- hombpa-Ir. --to which bonds belongs aww ahsor~tfon ban& withxhf.., 2420 A., and the mnca. of the 01i- r, ill be *Cl cQjutcomper y- chariged. lathe ms--- of TI dalts such complexes are formed.' ze yet tbc bondsare nrt ~rfremthe shift of ~..- to 2510 A. The da-billty Of &Im I per, S.cu asurptionval arements a n ich, contain several aniams, of the tyg,L jN1 +KOH ='hallde), aud a~-o by a detz. of th,,~ lumiackence perties of alk. iolus. of ]'~b i4ad V.-.: ~-_Werrxx_ a  'S, '-w A utctroia~d rr~&j Ot an vo or bree conqi 4 i %nd 0 J, ap4s fAsw. verrhav. Mimi, im. t bf thd Fiz. Fab. No, 5, of.la .1ySIS f q i 41 i is . . A hich -$an 4-toluene 6rof I or.,'I of the xylefts in~ OV 'a light.* In, Ms r11= -upon-the- ispem a (it L-Y a~ t one; 6 rs for certain-,wav'e 1e -.tba, one, but not measur 12 --counts We uo~ of hif6demnee-batids-,'which ociw in 4 OTawt Of the (CCOMCy neat In two's or thrk-,-Cg ug 3 2: systtrns- 1 ex p q irr pl-tut-control pt wein bi, Mi.    fiff dju auT InF- uni WWovAil (T. Gi.Shevchafika State CA 210-13 were, *oe~ fluuresmh2~ Rodamine B, imd fuchil441i'HiCii -RtO% and-I Abat theAhvereon cues for qw.!dye ip~n~. Pire mn=. an Uaf:thd~ deV6 af a4mmkii-Am -not dcpi=dr' upon Q th rn;a butw ftiA Vo -ft,dyc vitidAlm wIve3t mots. 04P R -  A// PRIKHOVKo, (I F 24(7) 3 PHASS I BOOX EXPLOITATION SOV/1365 L'voy. Univerartat MateriaI7 X Vaeacyu:rcgo 807ashchan17a PO s,-;ctroskopii. t. It Xolekulyarnaya arekt-roskiply& (Papers of the 20th All-union Conference ox Spectroscopy. 7o:. I- Molecular Spectroscopy) jL'vov) Izd-vo LIvovakogo Ual-t-ta, 195T- 499 P- 4 000 Copies printed. (Series: !tat PiUchnYl zb-'Z-47k, 77P- i Additional Sponooring Agency-. Akadetd7a nauk 3331. Komisslya p0 spektroakopA. DI.: lazer, S.L., Tech. Ed.- S~rarquk, T.V.; Editorial Board. r~ndaterg, O.S., keada~ci&a (Reap. Ed- Decaaaad)a Neporant, B.S., Doctor or Phyalcal and Mathematical Sciences, Fabelinakly. I.L., Doctor of Physical and h2thomatteal Sciences, ?abzlktz*, V.A.. Doctor of Physical and Matheastioal Scienceas Karnitakii, V.G., Candidate of Too.talcAl Sciences, Rayakiy. 3,M., candidato of Phyaloal and PAthonatical Saiances, KlimovskiY, L.K., F Candidate of Phla!ea.1 arl Mithematical Scianc,sa, Mlliyanchuk, V.3., Candidate of PIVaioal wid Mathematical Sciences " Olaubernanp A. Ye., Candidate of Physical and Mathematical Aclances. Card 1/3o STOrdlov, L.M, Calculation and Interpretation of the Vibrational Spectra or marina 278 Sverdlov, L.M., and Ye. P. Kraymov. Vibrational Spectra and Potential EnerZY Constant* Of C7010- propane and, Doutorttayalopropane 282 Gorbart', I.S., and A. ShjqhlgIgk&Z. The Anomalous _119"t-Iff-FI-juted Solutions Dispersion of U, 286 Lubahenko, A.F. Light Dispersion in the Absorption Range of Impurity 05taters 289 Yakovlev, O.N., D.S. Oorbanko-Gerzaanov, H.A. Zankova at &I. Study of Binary AmaLicium Sulfates Uaing Absorption 292 Spectra in Crystals Torob7eva, M.A. BirefriLtagance of Some Organic Crystals With A I.,ong-ohat, Molecular Structure 297 Card 19/30  AUTHOR: Lisitsa, M.P. and-Shishlovskiy, A.A. 51-5-14/26 TITLE: Polarisation of Light Reflected by a File (of Glass Plates) (Polyarizatsiya sveta, otrazhennogo stopoy) FERIODICAL: Optika i Spektroskopiya, 1957, Vol.2 ho-5, pp.637-644 ?USSR) ABSTRACT: The degree of polarisation of a pile of m plane -parallel glass plates, eyh of a r ractive index n is given by: a(n - U-sin (P cos(p P LK n2 cos. 2 (4) cos(p - a)2 + (a 0)2nj a cos(p + m(n2 c0 s(p - a)2(a, - ;Cos(p) where (P = the angle of incidence and k pile of plates is used since only light is reflected by a single plate. usually divergent, so that only axial fy Brewster's condition for complete a = (2 - si2(P)112 about 716 of the incident The incident beam is rays can be made to satis- .)olarisation: n 1 s in (p Cos (P 7- Vn + 1 For the above reasons, it is of interest to find the deDend- card 1/3ence of P on m and n .  51-5-14/26 Polarisation of Light Reflected by a File (of Glass Plates). Figs. 1 and 2 show dependence of P on ~p for iles consisting of 1 plate (1), 3 plates (II) and 10 plates (III~. In Fig. 1, n = 1-516 (glass); in Fig.2 n = 2.92 (a theoretical value). These two figures show that an increase of m causes narrowing of a q) , the inagi of incident angles at which maxima of P occur. Increase of the refractive index (n) makes this effect of m on &y very pronounced. Fig-3 shows ood agreement between the experimental values (dashed curves5 and the theor- letical ones (continuous curves) for m = 19 3 and 10, respect- ively. The authors studied the way in which, in a single plate, the incident ray is broken up by multiple reflections into sec- on4ry rays. The number of these secondary rays1kp.~ep6nds-on the plate thickness? its length and the angle of incidence of the original ray. The effect of k on ~-olarisation P in a single late is shown in Figs. 4 and 5. Fig. 6 shows calculated P = J(p) curves for a five-layer pile of selenium (n = 2.42 in infra-red);, curve III is calculated from eq. (4) on P.63?, which includes the effect of all the secondary rays; other curves (I - II, IV - VIII) take into account only selected secondary rays. Fig. 7 shows dependence of polarised-liglit-' intensity on (p -for the same selenium pile; curve I includes Oard 2/3 the effect of all the secondary rays, II-V only some selected  GORBANI, I.S.; SHISHLOVSKIY, A.A. Abnormal dispersion of Ught in dilute solutions. Fiz. sbor. no-3-* 286-289 157. (MIRA Il.-8) 1. Kiyevskiy gosudarstvennn- universitet im. T.G. Shevchenko. (Solution (Chemistry)) (Dispersion)  h0151 3/058/62/000/007/032/0658 A061/AI01 AUT'HOW) Zakharov, V. P., Shishlovslkiy, 0. A. TITLE; 11upply of material into the discharge gap of d-c and a-c arcs PERIODICAL: Referativnyy zhurnal, Fizika, no. 7, 1962, 14, abstract 7GI18 ("Visnyk Kylvslk. un-tu", 1958, no. 1, ser. fiz.'ta khimiT, no. 1, ,29 - 131, Ukrainian; Russian summary) MT: Atomic concentrations were measured in a-c and d-c arcs burning at atmo~;pheric pressure between carbon electrodes. The elements concerned (Na and Li in concentrations of 8.5 and 21%, respectively) were introduced into one of the electrades in the form of a mixture of salts of these elements with graphite. The atomic concentration in the discharge gas was determined by the method of "Rozhdestvenskiy's hooks", obtained on Rozhdestvenskiyts VIT-23 (IT-23) interfero- meter crossed with the ZCrI-67 (ISP-67) spectrograph. A comparison of the supply of material into a-c and d-c arcs leads to the conclusion that the input is proportional to the power of current consumed by the arc. [Abstracter's note: Complete translati,Dn] F. Ortenberg Card 1/1  SAVIN, G.N., otv.red.; FAYNERRAIJ, I.D., zam.otv.red.; GREBEN, I.I., red.; ZBHUSKIY, A.Z., prof., doktor takhn.nauk, red IISHLOVSKIY, " Kly' A.&_,__Fed.; AMELIN, A., red.; RATSALYUK, P.. tek~fr_rd.!~_- [Now methods of inspection and flaw detection in the machinery and instrument industries] Novye metody kontrolia i defekto- skopii v mashinostroenii i priborostroenii. Kiev, Gos.izd-vo tekhn.lit-ry USSR, 1958. 264 p. (MIRA 12:10) 1. Ilauchno-tekhnichaskoye obshchestvo priborostroitellnoy pro- myshlennosti. Ukrainskoye reBpublikanskoye pravleniye. 2. Gos- universitet im. Shevchenko, Kiyev (for Zhmudskiy, Shishlovsiciy). (Machinery--Construction) (Instruments--Construction)  ZAKHAROV, V.P.; SHISHLOVSKIY, O.A. (Shyshlovslkyi, O.A.] I Determining the effect of the composition of the test on the inflow of matter into the Dlasma of the direct current arc. Visnyk Kyiv.un.no.2.Ser.fiz.ta kb1m. no.1:21-25 t59- (MA 14:8) (Electric arc) (Plasma (Ionized gases))  2e(7) - SOV/48-23-9-5/57 AUTHORS: Zakharov,. V. P., Shishlovskiy. A, A. TITLE: into the Are An Investigation the Entry of a Plasma. The Case of the Binary Mixtures of Na and Li PERIODICAL: Izzvestiya Akademli nauk SSSR. Seriya fizicheskaya; 1959, Vol 257 Nr 9g pp 1o63--1o64 (USSR) ABSTRACT: In the present paper the concentiation of the atoms in a direct-current arc at atmospheric pressure is investigated, and, at the same time. the influence exercised by experimen- tal conditions upon the entry of substances is investigated. The IT-23 interferometer according to Rozhdestvenskiy and af, ISP-67 spectrograph were usedf, and the mixtures of NaCl, Ila2CO and Li CO with carbon were investigated by means of this 2 3 instrument. These mixtures were located in the hole of one of the carbon electrodes. The entry of atoms into the direct current are was found to be 1-33 times (Ila) and 1-41 times greater (Li) respect4vely than that into the alternating cur- rent are. During the investigation of the reciprocal influencing by the elements on the entry of atoms in the case of a change of 'the concentration of one of the components~ it was found that the content of Na atoms in the discharge gap does not Card 1/2 depend on the Li-content in the zest sample. There is Propor-  SOV 48~23,9-5/57 An Investigation of the Entry of a Substance Into the Arc Plasma~ The Case of the Binary '~,.ixtures of Na and Li tionality of the lithtum content between discharge gap and test sample. An increase of the concentration of a component in the test sample causes a monotonic, increase of the concen- tration in the dizc-.harge gap. Only within the range of 25-40~6 Ila was a deviation from "he above result observed. Because of the different diffusion coefficients of Na and Li in the case of an equal content of elements in the test sampled, the con- centration of 1-.he Na atoms in the discharge gap is higher than that of the Li atoms~ Furthermore, the influence exercised by the melting temperature of the mixture upon the entry of Ila and Li atoms is investigated, and it is found that, with an increase of the average melting temperature, the entry both of Na and of L! decreas,es. If bivalent Ca is used instead of monovalent Li in the test sample, the entry of Na is decreased two~,f old. Thera are 3 f iiTaras arid 2 Soviet references. Card 2/2