SCIENTIFIC ABSTRACT KRINZBERG, TS.Z. - KRIPYAKEVICH, P.I.

ROMANO, V.F., kand.tekhn.nauk;_!g!~NZBERG, TS.Z., inzh.; KHASIN, Nov tachnologieftl process for finitihing spar-gear toeth. Vest. mashinostr. 44 no.lt44-50 Ja 164. (MIRA 17W  NEFEDOVV V.D.; TOROPOVA, N.A.; KRIOKHATSKAYA, I.V.; KESAPZV, O.V. Separation of phenyl derivatives of arsenic and germanium by means of partition paper chromatography. Radiokhimiia 6 no. ltll2-113 164. (MIRA 17:6)  KRIOUK, A, So - Report of the 22d session of the White Russian Society of Traum- tolo iota and Orthopedists, Ortop,, travm. i prot so 22 no.8:90.-91 Ag 1 91. e(MIRA 14.12) (WHITE RUSSIA-,ORTHOPEDIC SOCIETIES)  KRIPATTLZX. A.; GLEBAVICIENE, S., red. [more attention to flex farming] Dauglau demoslo 1InInIn- kystel. Vilnius, Leidykla "Minti.9,11 1965. 80 p. [in Lithuanian] (MJU 16:6)  Remocitatlon after drvadj3g IW azternal cardiac massage and artifloial respiration. S"lk. qsaugi, 7 no.&49 162. 1. Kauno C~rsitovlon pagalbos stotis. (WOMM) (8W? MASSAGE) (RESPIRATION AnIFICIAL)  KRIPAX. N. woo" ~Scim`ntiftc and technical conference of workers of the meat and ImIlk Wumtries In Kasakhgtan. Mias. Ind. SSSR 29 no-502-33 158, (MRA W10) 1. Smalpalatinakly nrasokombinate I (Kimakhatan-Food Industry)  - - - -KRIPAK- - - -of 0 0 Our experience In mdernizing production, Miss. Ind. SSSR 29 noo'60-13 158. .(KM 11: 1.2) I.Semlyalatinskly Wasokembinat. (Meat Industry-Bquipment and supplies)  KRIPAK. N. Yeass for fully utilising the productive caWitlos of large packing houses* Iftes.ind-SUR 31 no.1:27-29 160. (NIU 13:5) 1. DIrektor Sonlyslatinskogo myssokombluats. (Sewipalatimsk-Facking houses)  Y) ATFA I Nun. 4 We" .:uly 1;5k" 2C~3;lrl Nftscritod .2S 0 thle vbm is Itiorided (:r statim" muming. it IN" a nwgwmslm Stow ongins -tintvd ,n C,;p it 4 rim-CUN bolagwo. It A 199 ftp. dxmustl.-4 ~l f rv ~lwrv,w 0 ftp. plus It= Wk at ppows stwo at ).5 ato. WA  KRINTS, 9.5 Inshener.- Operating practice of a locomobile. Snergetik I no.7:15-16 D 15). (KLRA 6:12) (Steam engines)  -ACMMA I.%, doktor tokhatabookikh nauk, professor, glavrqy redsktor: ANSTMOT, M.G., kandidat f Is Iko-satonat to hook Ikh nauk; ASTAKNOT, X.T., professor; TUMVICK, M.P., professor, doktor tokhatchookikh asuk; KOMIN, A.I., kaMidat takhnicheektkh nauk; Inshener; ZAZARIPV, L.P., kandidat takhnichaskikh nauk; 15. 1.T.. Inshaner; KATYUKRIN, T.M., kandt"t takhnichookikh nauk; 1111TINO N.9.0 kandIdAt fisiko-satematichoskikk sauk; FAVIOUKIN. LA., kandidat tokhatchookikh nauk; PITUKHOT, B.S., kaddIdat tokhalchaWkh nouk; POSVIDS, L.G., kandIdAt tekhalchooklkh ntak; SIKOIKOT, A.F.' Inzhener; SKIUAGIN, A.P., kandidat tokhntc;aeakiich nauk: NATnILIBIR. I.K.. Professor. doktar takhnichookikh nauk; KMIUV, G.P., kandidat takhnichaskikh nauk; YANISHIN, B.L. kandtd&t tokhnichookikh nank; KARKW. K.Ye.. Inshener, redaktor, KARGAVOT, V.G.. redaktar gmflobeekikh natertalov, lashener; SOKOZOVA, T.F., t*khalchookly redaktor. [A machinebuilder's manual in six volumes] Spravochnik mashinostraitelia v shesti tomakh. Ind. 2-o, Ispr. I dop. Koskya, Goo. nauchno-t4khn. Isd-vo washinostrott. lit-ry, Vol. 2. 1954. 559 P. (N12A 8:1) (Nachiniary-Coustruction) (NechAnical engineering)  ARTSTMOT, K.B., ksnd,fIs,-mwtn&ukg TEIUWVICN, M.P.# prof.# doktor takhn.nauk. laurest Lentaskoy proxii nipwsz.8.0 Insh.1 LAZAUTp L*PO# prof** doktor takhn.naw-l"0761, 1.1.0 insh,j VIKITtV, U.N.9 kmnd.fIs.,-mt.nauk; OCUIVt A.T.e Inah.j PANICRKJX~ I.Aos prof.@ doktor tokhaonauk; PRIMOVe Moe prof., daktor takhnonsukl PODTIM SoOo# Ima4o"khn.n&ukj SINOVOT# A.11*# Inshel SHIRUGIN, A*P.0 ksad.t4kha,naukj ICKNUOTO GA.,o kaMetskbaeasak; FAYVMIBIM# J!.N.9 prof.$ doktor takha.uaukl MULIZU, UPot kande takhaonaukl CHNSACHWO, T*F.,'ksadtokhn,asukj UXI8W# B.Zes kand.takhn.nauk; ACROW~ V.S.. pref., doktor tokbu.nauke rodal KMUVTSU, T.N., prof., doktor tokha,mauk~ rodj POOKAW~ 89L , prof e 9 doktor tokhaousuk, loureat Loninskoy proulti,, rs4*j'IMI CA*~ profo# doktor tokhaasuk# radel SO, S,V,o skedoulk# rodol RIMOV, D.Not profos doktor telchn.naukq wadel KARQWTo V.0*6 Insh., red.graftchosIfth notarislove, GIL' Nol., rodoind-val SOKOLOVA~ T.F., takhaorod, (Kanual of a mobanical engineer in six volume] Sprevochalk w- shinostroitelle v shostl tomkh. Redoeovet U.SeAclorken I dre lzd.3., ispr. j dop. Naskyst Gosasuohno-Ukha.196-vo, asshine- stroltellt-rys Tolo2. 1960. 740 p. (MIRA 1411) 1e AN USU (for Sorensen). (Nochenical engineering) (No chins ry-Cons truction)  FUSTILINIKOV, M-R-J KOFOIEYEV, V.I.; KRIPTNEVICH, V.L. -' NOV anticlinal zones of the southern margin of the western part of the Xubdn Lowland in the light of qeismic investigationBe Geol,nefti i.gaza 9 no.2144-48 F SE5. (MTRA 1884) 1. Treat Krasnodarneftegeofizika.  15(6) SOV/101-59-2-2/13 AUTHORS: Syrkin, Ya. M., Frenkell, M. B. and Kripitser, A. M. TITLE;t Quick-Setting Slag Portland Cements PERIODICALt Tsement, 1959, Nr 2, pp 3-6 (USSR) ABSTRACT: The authors state that in 1960 the cement industry has to increase the symbol mark of cement to "425", and stop the production of cement below the "300" mark, Various ways have been proposed in order to achieve a better crushing strength of cement. P.P. Budnikov, G.A. Sokhatskayaq I.I. Xholinp A.L. Gershuns, I.Le Znachko-Yavorskiy,' M.I. Strelkovp M.G. Kashperskiy, LD, Zaporozhetep V.V* Kindq V*I. Sataxing F.F, Ladygin, A.A, Panarina and G.V. Kalishchuk, all studied manufacturing details which should improve the qualities of cement. Problems con- cerning the grounding finenesel mineralogical composition of the slag cements, and addition of the hardening accelera- tion ingredients of the slag portland cements were under Card 1/4 construction. Yuzhgiprotsement (Southern Planning  SOV/101-59-2-2/13 Quick-Setting Slag Portland Cements Institute tor Cement Industry Enterprises) has studied the problem of obtaining quick-hardening slag-portland-cement, with a hardening intensity similar to that of the portland- cement marked "400" - "500" for several years. Such cement might be obtained for rammed and plastic solutions under the following conditionst the cement composition must contain not less than 50A clinker and the fineness of the ground mixture clinker - slag - gypsum, must attain 4000 to 5000 cm~lg. Clinker must contain tricalciumsilicate (C'3s) 50 to 60% and tricalciumaluminate (C 3A), not less than 6%. At the Dneprodzerzhinskiy tsementnyy zavod (Dneprodzerzhinsk Cement Plant) for slag-portland-coment, the optimum gypsum dosing is 5%, as shown in diagram 1. Diagram 2 shows that an Increase in the fineness of ground slags, above the specific surface of 3000 to 4000 cm2/g, has little practical significance in relation to the crushing strength of cement. Tables I and 2 show chemical and mineralogical compositions Card 2/4 of clinker, and the chemical composition of blast furnace  BOV/101-59-2-2/13 (4uick-Setting Slag Portland Cements granulated slags, obtained at the Dneprodzerzhinsk Cement Plant, and of mixed slags, in proportion 1 : 1, produced by Krivorozhokiy and Dneprodzorzhinskiy metallurgichoskiye zavody (Krivoy Rog and Dneprodzerzhinsk Metallurgical Plants), respectively. The results of exporiments carried out at the plant and at the institute of the Southern Planning Institute for Cement Industry Enterprises are compiled in tables 3 and 4, showing mechanical properties of the quick-hardening slag- portland-cement (rammed solution 1:3) and of the same cement (plastic solution), respectively. Table 5 shows the strength of the concrete made of portland cement 111;00", produced by the Belgorodskiy tsementnyy zavod (Beigorod Cement Plant), Dia- grams 3 and 4 show the possible schemes of the two stage grinding of mixed material for cement manufacturing. From the experiments carried out by the Southern Planning Institute for Cement Industry Enterprises it is seen that the prime costs of the quick-setting slag-portland-cement are 25 - 30 Card 3/4 lower than such costs of the portland-cement of the same marks.:  SOV/101-59-2-2/13 Quick-Setting Slag Portland Cements It in projected, in 1959, to realize a mass production of the guick-hardening slag-portland-cement at a series of plants in the USSR. There are 2 diagramst 2 graphs and 5 tables. Card 4/4  GAZAPL'rANTS# Z.; RtIPITSERO M. r From sepants enterprises to a consolidate maintandnce unit. Avtotransp, 41 no,1133-35 Ja 163, NMA 1632) 10 Zaaeatital' M'jdatrs, garl 1 ogo tiansporta i shosoomkh t;n ^ " dorog Usbeldetana (ror G vv4p7, inso. tresta (for Irips:1207. "Uzavtoremontu I %thor (Motor veldolea-Skintenance ~nd reWr)  KRIPITSER, H. Now developmento in the organization of inotor-vehicle repair In Uzbekistan. Avt. transp. 42 no.10:32-33 0 164. (141RA 17:11) I Generallnyy d1rektor proizvodatvennogo, ob"yedlnenlya "Uzavtoremont".  ~, h L -'M~ I CVinz, Buck flow in vanod rotary machines, Strojiretwtvi 1.4 no.6435-440 Je 164. 1. Energoprojekt, Prague*  ___ ____ - ------ - KRIPIIMO V. "Electric driving of boiler pumps in electric-power stations." ELEKTROTECH14IK, Praha, Czechoslovakia, Vol. 14, No. 6, June 1959. Monthly List of Ea3t European Accessions (EFAI), Lcp Vol. .9, No. 9, September 197'9. Unclassified.  KRIPIMRI Vaclav, inas Automatic starting of feeders in case of failure of one of them. EnergetUm Cz 12 n0.10:556-558 0 162. 1. Energcprojekt,, Praha 7j, Bubenska 1e  KRIPMO Vaclavv ins* - Urge electric motors in projects of industrial installations, 91 tech obsor 51 nq*9:436-441 S 162. 1. ~Zwrgoprojekt Praha.  lnsbo-,-ITW. zawl Vibrational removal of "h deposits from a scro*n type ~tsam suporheat*r. Blake stao 31 no*3:2-7 Ur 060. (KIRA l3tV (-J!oIlSrS-Mo"IAg) 4.,  KRIPPA, A,, insh. " Athletic field houses made of synthetic materials. Zhil. strol. no.lsl2-14 065. (MIRA 180)  KOSHKINp V.G., kand. takhn.nauk; MAKOTIIISKIY, M.P., kand. arkh.; MUIM, V.O., kand, arkh,; RUDIRA, M.A., arkh.1 SILUANOVA, G.V., arkh,O SHDRYGINA, N.V.# kand. khIm. nauk; Priminali uchastiyes BUGUSLAVSKIY,,A.I.v inih,; ZARUBITSKIY, L.19., insh..; LI*HITS, A.M., insh.; JWHINA, N.Y., insh.; dTLIVANCHIK, A.M., kand. tekhn. nauk; ROMANOVA,, L.A., insh.;.CHSRKINSKIY, U.S., insh.1 ANDREYEV, V.S., retsensent; IOFAN, B.M., retsensent;--KRIP24 _A.I-.,-arkh., retsensentl GURVICH, E.A., red.isd-va; BRUSINA,, L.N., tekhn. red.. (Catalog of finishing materials and produats] Katalog otdoloch- nykh materialov i isdelii. Koskva, Gosstroilzdat. Pt.l.[Plastics; polymer finishing misterials] Plastma"y; -polimernye otdelochnye materialy. 1962. 119 p. (KIRA 16W 1. Vessoyusnyy nauchno-iseledovatellekly instiiut novykh stroi4 telInykh materialov. 2. Chleny-korrespondenty Akadamli stroitex'd- stva i arkhitektury SSSR (for Andreyev, Iofan, Krippa). (Plastios) (Building-Details)  KOSHKINt V.G., kand. takhn. nauk; HAJKOTINSKIT, M.P.,, kand. arkh.; MOM.. V.O.p kand. arkh.; RUDINA, M.A.varkh.; SILVAROVAp G.V., arkh.; SHORIGINA, N.V., kand. khim. nauk. Prinizall, uchastiye: BOGUSLAVSKIY, A.I., Insh.; ZARUBITSKIY, A.Ye., insh.; LlVSHITS, A.M., insh.; MASHINA, U.N., insh.; OTLIVANCHIKj A.N.j kand, tekhm, hauki ROMANOVA, L.A.,insh,l CHERKINSKIY, Yu.S., insh.; ANDREYEVO V.S., retasusent; IOFAN, B.M., retsensent;-KR JU!PA,_A_T_, arkh.p retsenzent; GURVICH, E.A., red.lzd-va; BFOJSINA, L.N.,, takhn. red. (Catalog of finishing materials and articles) Katalog ot- dolochnykh materialov i Welli. Pod red. M.P.Makotinskogo. Moskva, Goestroiladst. Pt.l.[Plastics; polymer finishing materials and articles] Plastmassy; polimernye otdolochaye materialy i izdeliia. 1962. 119 p. (MIRA 16:7,) 1. Moscow. Voes9yusayy nauahno-issladovatellskiy .1ustitut novykh stroiteltnykh materialov. 2.%Chleu-kbrrespondeit- Akademii strQ'italletva i arkhitaktury SSSR (for Andreyev,, Iofan, Krippd). Finishof and finishing--Catalogs) (Plastics)  JKRI fE.LZdu.*rd prom.biol. Working methods of historical geobotany and their results in Slovakia. Biologla 16 no.4:299-305 161. 1. Geologicky ustay Dimqsa Stura v Bratialave, Mynska dolina. (PHfTOGEOGRAPHr)  KUWATIOVAl, Vera, dr.; KARPATr, lotvan, dr.; KRIPPELOVA, Teresia, dr.; "rPPZL, Eduard, pron.biol. ity of white poplar and oommon juniper in Sturovo area. Diolocia 16 no.71481-492, 161. 1, Votanloky ustav Nadarokej akademis vied, Vacratot, Hmgary'(for -Farpatiova ond Sarpati) 2. Biologiclq ustav Slovenskej akadeaue vied.. Oddelenle obotaniky a oystamtiky raistlint Bratiolavat Sieskis- wicsova 1 rfor grippeloya) 3. Goologicky ustaT Vionysa Stura, Bra- tislava 9, Mynska dolina I(for Krippel). (POPLAR) (JUNIPER)  CZECHOSLOVAKIA ~AgAr"RIRPEL-and Maria KOUNCKOVSKA, Geological Institute (Geologicky ustav) "Dionyza Sturall, Bratislava. "Listing of Palcobotany Studies About Slovak Territory Until 1960.11 Bratislava, Bioloaia, Vol 18, No 6, 1963; pp 477-480. Abstrace: Bibliography of about 80 articles and monographs pertaining to palcobotanical studies on the territory of Slovakia and published in a great variety o1 primarily German and Czechoslovak periodicals between 1851 and 1960. J 17  CZECHOSLOVAKIA Dionysius Stur's Institute of Geology fGeo- I=Uj~ v D 1~c ky onysia Stura logic5c st~a _7, Bratislava. Dovelooment of tho Vegetation in the North Part of the Danube Valley in the Postglacial Period. Bratislava, Biologia, Vol 18, No 10, 1963, PP 730 - 71~2 Abstract: The author made an an-lysis, of pollen in tll~reo peat bogs. An analysis of the problon of the oriGin of the steppe is made, and an evaluation of the absence of forests in the area is presented. Tho pollen analysis wao used to show the devalop- ment of the vegetation in the area sinoo the period of the warming up 10.,000 years aGo. Comparison is maae with results of work conducted in neighboring areas. 6 Figures, 1 Western, 2 Czech, 5 German, 11 Hungarian references. 1/1  !MIPPEL, Eduard ~-.a! .- Contribution Tertiary and to the problem of flora boundary betwon the Quaternary. Geol prace 63:157-162 162* 1, Geologicky untay D.Stura, Bratiolava,  KRIPPEL, Eduard; KOIACKOVSKA, Marla An adapter for the microphotograph revolver. Biologia (Bratisl,) 19 no.3tlc/7-199 164. 1. Geologicky ustav Dionyza Stura v Bratiolave. e  KR!'.7; F-1Y EduAri - Developmnnt of pl--ntv during the Quaternary In Slovakia. G6ol praoe 64t53-58 163. 1. Dionya Stur Gnologioal Institateg Bratislava. i ~~ -  I- J. Kornas' Recent results Of PW.03001010gle Research on 'deeds* a reliew of an.article. p. 530. BIOLORGIA. (Slovek3ka. akasemia viel) Bratislave CZECHC6LOVAFIA Vol. 10, No. 4, 1955. SOURCE: East European Accessions List (EEAL) Library of Congress. Vol. 5. No. 1, Januaby, 1956.  Vllcl,jv Kiiial I 'I 'Jv. lil, ok r,2,;i,Ai. i k~ iC ; L, vol. I'L, no. 1956 so. LL~ll VC1. 5, nu. 1.0 Czt . 101J.  KRIPiELOVA, T. Problems of some Hungarian biological research centers. P. 381, (Biologia) Vol. 12, no. 5. 1957# Praha, Czechoslovakia SO: Monthly Index of East European Acessione (EEAI) Vol. 6, No. n November 1957  IMATIOU, Vera, dr.1 KUWATI, Istvan, dr.; KRIPPELOVA Teresia dr KRIFPXL,, Zdt:axd,, pronbiol. Comminnity of white poplar and comma juniper in Sturovo area. Biologia 16 no.7:481-4,92 161. 1, Botanicky ustav HadarskeJ akadends vied, Vacratot, Bmgarlr (for Karpatiova and Karpati) 2. Biologicky ustay Slovenskej akademie viedp Oddelenie bo a pe oval texatiky rastlin, Bratislava, Slankis, 1 =~kyja wicsova for 3. Geologicky ustav Dionysa Stura, Bra- tislava 9, Mlynaka dolins. (for Krippel). (POPUR) (JMIPER)  KRIPPELOVA, Terezia and SPANIKOVA, Anatolia; Department of Geobotany and -Plant-- SYS`-t'e'-Ma'i:G'O'f' the' Botanical Institute of the Slovak Academy of Sciences, Czechoslovak Academy of Sciences, (Oddelenie Scobotaniku a systematiky rastlin Slovenskaj akademic vied, CSAV,) Bratislava. "New Loci of Some Plants Rarely Found In Slovakia." Bratislava, Biologia, Vol 18, No 7, 19631 pp 525-527. Abstract : New locales are reported for 2 dozen plants rarely found in Slovakia, based on collection activity in the Small Carpathian Mountains, Southern White Carpathians, Zitny Ostrov and Kosicke Kotlina in 1962. Brief description of habitats and ecologic and taxonomic data.  UziXi-105iou IMIPPELOVA, Terozia f-Affiliation not givon._7 InternationalPhytosociological Visit to Poland." Bratislava Biologia, Vol 18, No 10, n .9 19'3p Pp 793 - 795 Abstract:The author describos a visit nade by 130 foreign and 50 Polish scientists to various places of interest bitweon 3rd and 11 th June 1963. 3 Photo,,raphs, no references.  KRIPPY 0 V. -ft~~=duotloiu of modioi"l plants, Cook, farm, 2 no,74:275-277 Aug 1933- (CUM 23s4)  KRIPS,G.M. .- , Nonoccupationalinjuries in adults accordIng to data of the KishInev Emergency Hospital. Zdravookhranenle 6 no.3t12-14 My-4*963 (14DU l61ll)  --- 47 x 1P 5-'~ 137-58-21-4385 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 2. p 298 (USSR) AUTHOR: Kripskiy,..A.. TITLE- Quantitative Determination of High Sulfur Contents With ST-7 Stylorneter (Kolichestvennoye opredeleniye vysokikh soder- zhaniy sery na stilometre ST-7) PERIODICAL: Vestsi AN BSSR, ser. fiz. -tekhn. n., Izv. AN BSSR, ser. fiz.-tekhn. n., 1957, Nr 1, pp 157-159 ABSTRACT: Means are described of det ermining j730% S contents in Fe- and Cu-base specimens. Standards for the Fe-base specimens were made by diluting an Fe sulfide with steel ST-45 (in the molten state); standards for the Cu-base specimens were made by a powder-metallurgical method from Cu and CuS. Optimum conditions for analysis were: generator type - IG-2; U = 240 volts; C!Z0.01 /A f ; I = 3.5 amp. ; L= 0.01 millihenry; auxiliary gap = 3 mm;analytical gap ~'- 2 mm; stylometer slit = 0.04 mm (the slit being illuminated by means of a short- foca I- length con- denser). Auxiliary electrodes, 6 mm in diameter, were made of aluminum and carbon. The 5 gradually burns up at the spot Ca rd 1/2 being spark-spectrum tested, for which reason it is necessary  137-58-2-4385 Quantitative Determination of High (cont. ) to move the specimen several times in the course of the analysis. Where S contents were of the order of 10-30%, the samples did not have to be moved. In this event, preliminary spark-spectrum analysis of the specimens for 30- 40 seconds yielded ood results. The pairs analyzed with At electrodes were. S 11 5640 angstromAN 11 5667 angstrom and S 5640 angstrom/At 111 5696 ang- strom; with carbon electrodes, S 11 5606 angstrom/N 11 5686 angstrom. M.N.' 1. Copper al1cy"ulfur-Determination 2, Sulfur-Determination-Test wtbods Ca rd 2/2  IRIPSKIT, A. M. Ritual spectroscopic effect of sulfur and Iron in ligbt sources for spectrum analysis. Trudy Inst.fix. I rAt. AN BSSR noZt 93-109 ' 57. (KIRA 12:1) (Iron-Spogetra) (Sulfur-Spectra)  KRIPSKIY, A.M. Iffect of sulfur on iron spectrum In operating with detachable electrodes of V*rious shapes and materials. Insh.-fis.shur. no.l-. 88-90 J& 158, (MIRA 11:7) I.IUStitUt fitiki I WAt*Mtiki AN MSX; t. MinSk. .Oro"Fectra) (sulfur)  SOV/137- 59- 1-2120 Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Nr 1, p 278 (USSR) AUTHOR: Kripskiy, A. M. TITLE: Effect of Certain Elements on the Intensity of Spectral Lines of Iron (Vliyaniye nekotorykh elementov na intens-.vnost' spektral'nykh liniy zheleza) PERIODICAL: Dokl- AN BSSR, 1958, Vol 2, Nr 1, pp 11-14 ABSTRACT: A report on the results of an investigation of the reciprocal effect of Fe and S, St, C, Mg, Al, Zn, Pb, Sn, Mn, Ni, Cr, W, Cu, Ce, and Zr, which was achieved photographically in the 1950- 9300- angstrom range on the ISP-ZZ and KSA- I spectrographs . The amounts of the elements entering the Fe discharge and affecting its spectral lines were determined by microanalytical weighing. S and Si from Fe- based specimenE, Ce and Zr from Ni-Ce and Ni-Zr alloys, and the rest of the elements from pure ca:bon, Mg, Al, and other electrode .inserts were Introduced into the discharge. Armco-Fe was used for the counterelectrode in all cases. The elements investigated are subdivided into four groups, according to their character and size: Card 1/2 1) S, 2) C, Si, 3) Mg, Al, Zn, Sn, Pb, and Mn, and 4) Cr, Ni,  SOV/137-59-1-2120 Effect of Certain Elements on the Intensity of Spectral Lines of Iron W, Cu, Cc, and Zr- Elements of the groups 1-3 increase the intensity of all the Fe lines. S has the maximum effect, C and Si are considerably weaker, Mg, Al, Zn, Pb, Sn, and Mn are the weakest. Elements of group 4 do not exercise this effect. The effect is at its maximum with 30-800fo relati, e atomic concentrations of the active element in the discharge cloud. Lines that are most sensitive to the influence attain a maximum later than others. Spark lines attain a maximum earlier than arc lines. The reverse phenomenon, n3mely, a weakening of the intensity of S, C, Si, Mg, Al, Zn, Pb, and Sn lines upon the introduction of Fe discharge cloud was observed. As a rule, arc lines are "squelched" to a much greater extent than spark lines. Similar reciprocal influences are found also among other pairs of elements: S, C, Si, P, Mg, Al, Zn, Pb, and Sri on one hand and Fe, Ni, Cr, W. Co. V, Nb, Cu, Ce,and Zr on the other. It is concluded that in the discharge cloud the excitation energy is transferred from S, C, Si, Mg. Zn, Al, Pb, and Sn atoms to Fe atoms A. Sh. Card 2/2  KRIPSEff. A.M. Some features of the Y&porisation of electrode substance In sources of light used for spectral analysis. Insh.-fis.thur. no.2:53-57 7 158. (KIRA 1311) a# 1. Institut fIsIki I vAtemattki AN BSSR, Minsk. (Blectrodes)  slio 8 1 /60/000/0 24/006/t) 16 AOO5/AOO1 Translation froms Referativnyy zhurnal, Kh1miya, 1960, No. 24, P. 347, f 97.335 AUTHORS: Bezborodov, M.A., Krinaki3r. A.M. TITIE: Methods for Investigating the Olass Crystalline Structure PERIODICALs Sb, nauchn, tr, Belorussk, politekhn. in-t, 1960, No.82, pp. 3-15 TEXTi The authors enumerate and describe briefly the direct and Indirect methods, both in application and being suggested, which are suitable in principle for the in vestigation of the eiructural'changes in glasses. I. Mikhaylova Translator's notel This is the full translation of the original Russian abstract. Card 1/1  ZHUNINAI L.A. p kand.tekbu.nduki XRIPSKIY, A.M!,I.. inzh.; NOVIXM, YO.Z. Preparation of crystalline glass materUa from easily melting White Russian clays. Sbor. nauch. trud. Bel. politekh. inst. no.82s?9-85 160. (KMA 3-5-- 5) (Glass manufacture) (White Russia-Clay) ft,  S/058/61/000/003/006/027 A0011A001 Translation from: Referativnyy zhurnal, Fizika, 1961, No. 3, pp. 228-229, 1 3G141 AUTHOR: Kripskiy, A. M. TME: The Use of M#4 (MP-4) Microphotometer as Radiation Receiver Iin Spectral Studio~a PERIODICAL: "Sb. nauchn. tr. Beloruesk, politekhn. in-t", 1960, No. 82, pp.120-125 TEXT: The author proposes a simple method of using the MP-4 microphotometer for studying time changes in intensities-of Individual spectral lines, line groups and the entire spectrum as a whole with time resolution up to 0.3 sec. To single out individual spectral lines in-the T4)4 (ZhF-4 ?) slit, light filters are employed. The author shows the applicability of this method to studying full curves of burning and sparking, investigating stability of sources, and other purposes. Using this method the author Investigated the time change in the effect of sulfur on the spectra intensity of Fe, Cu, Cr, Ni and W. Translator's note: This is the full translation of the original Russian abstract. Card 1/1  89937 S/030/61/000/001/006/017 )S-,2120 B105/B2o6 AUTHORS: Bezborodov, M. A., Academician AS BSSR, Kripskiy, A. V. TITLE: Ways of producing super-strength unbreakable glass PERIODICAL: Vestnik Akademii.nauk SSSR, no. 1, 1961v 65-69 TEXT: Conclusions may be drawn on the degree of unbreakability of a material from its brittleness, the estimation of which is however very complicated. For reasons of simplicity it is proposed to consider the 1 10 value Xp max - - as coefficient of brittleness, J being the 1 max p p p maximum,relative deformation'at the moment before breaking, 1. the initial and I Pmax the final dimensions of the deformed sample. The VX dimensions 6pmax and the values Xp of some materials calculated there- from are tabulated. Materials with 4 Pmax > 0.05 (and Xp < 20 Card 1/4  89937 8/03OJ61/000/001/006/OIT Ways of producing super-strength B105/B206 correspondingly) may b assumed as being unbreakable. Glass may be considered as being pr:otioally unbreakable if its resiotanoe to static, dynamic and impact loads under normal conditions is not inferior to that of carbon steel. The strength properties of solids depend on the percentage of weak spots and their distribution in the sample volume. Most dangerous are gap-like cavities and cracks with sharp edges lying vertically to the tensile forces. The durability of solids with structural miorodefects is mainly determined by the quantity and character of these miarodefecte as well as partially by the plasticity of the material, but not by the durability of the main compounds. It follows therefrom that all materials would have a hundred times bigger tensile strength and hundred times lower brittleness and greater elasticity, if all microdefoots were eliminated. Even a partial reduction of the amount of cracks through pickling Increases the strength of glass and other materials by a multiple. The nature and mechanism of the development of microdefoots has not been studied yet. The authors assume that there are three types of miorodefects in the glass: 1) mior'ocracks developing In the'ma9B of the sample and on its surface owing to local changes of the glass density; 2) microcracke Gard 2/4  8 9 93 7 S/03o/6i/ooo/ooi/oo6/oI7 Ways of producing super-strength ... B105/B206 developing on the sample surface as a result of chemical and corrosion effects of adsorbed liquids9 vapors and gases; 3) microdefects develop- 10 ing during the deformation process of the sample at the destruction of gap-like eubmolecular sections, which are localized inside and at the surface of the glass by admixtures with weak bonds, as viell as micro- sections with greatly weakened structure.- Microdefects develop not only on the surface of the glass9l but also inside. The following macro- defects have also an effect on the durability: macrocracksp cavities, gas bubbles, solid inclusions, stresses and chemical heterogeneity. Super-atrangth unbreakable glass could be produced by a special technology of melting and processing., The liquid glass must be submitted to a ' pressure of several kg/CM2 and cooled under pressure. The formation of crystal nuclei could be suppressed by intense y-irradiation. The effect of microdefects may be r:duced by increasing the plasticity of the glasses (malleable glass a). The microdefects of the structure form a common fault of all materials, mainly metals, alloys, minerals, ceramics, and plastics. Their elimination is the only effective way in the fight for increasing the durability of materials. There are 1 table and 6 references: 2 Soviet-bloc and 3 non-Soviet-bloc. Card 3/4  89937 $103 ' Y 61/000/001/006/017 Ways of producing super-strength ... B206 B105 Legend:- Table. Limits of relative deformation and brittleness values of some 1P materials. a) material, 1) glass rods, 2) glass fibers, 3) pure zinc, 41 industrial zinc, 5) pure aluminum, AOU" D ,0008-0,001 1250-1000 6 pure iron, 7) industrial lead, CTexAmmme "it- 8 organic glass, 9 ) celluloidq ~ IN J LtHH9 4KCTMA 0.05 20 . 10~ vinyl plastic, 11) soft rubber, R(Itut "XV144t- 0.02 so 12 hard rubber. CXIIA 0.10 5 rAXIOU1111"A q1tc- TWA 0.5 2 C)Kejim imcm 0,36-0.46 2.8-2.2 CUSIMen mxwsi- b U. 4CCKMA 0,32 311 OPMwItex" CYCKAO JAWYAONA O'OS 0,08-0.22 25 12.5-4.5 It HIMMAMISC? M-0.5 10-2 U Pemu unrKso 2-8 0.5-O.M- NMI 12 MCUSO 3-0 0. 33-0, t? Card 4/4  25"* Ww"a Lattlew of dw NIA# soW 00,W J70"Is. (III hu"14n.) 1. 1. ",l id'.I ALAIdemil Mduk SSSR, ww v,r.. %, 79, )INYRO-9931.IM111*9141 r1w Lttkv mWants III the Joine %)stvats wi-re, ii"wilw%A, Hr- %Ilk% ilre &wt&ut4 and faclosUrd. 14 ref.  YATMVICH, Yevgenly Antonovich [lAtakovych, IN.A.]; prof., doktor Istor.nauk, otv.red.; NOVIKOVA, G.O. (Novykova. E1.0.1. red.lzd-va; YURCHIMIN, V.I., takhn.red. (Conditions of Galician workers in the capitalist period, 1848- 1900; a brief study] Stanovyshche robitaychoho klasu Halychyny v period kopitalizzu, 1848-1900; nerys. Kyiv. Vyd-vo Akad.nauk URSR, 1958. 106 p. (KIRA 12:10) (Ukraine. Western--Labor and laboring classes)  PASHCHENK0, V.Ya.; SISETSKIY, A.G.[Sisotalkyi A H 1, SIZOVINK0 G.S. [Byzonanko, U.S.1; DASHKETIC110 Ya.R.tDa;ao;ych, IA.R.J; XOVAWCHAK, 0.1.jKovallchak, 11.1.1; KOVAL', F.T., red.; KILIP IYAKEVIC11 L?,j&ryp1iakevych, I.P.]p red.; CHUGAYOV,V.P. I ovp V.P. , red.1 DEI"H. I.# redq BURKATOVSKAYA, TS. -a-Tr --V!~ T urkatovalka, S1, tekbn. red. (Condition of Lvov workers# 1917-1939]Stanovyahche trudia- Bhchylch Llvova,, 1917-1939; dokumenty ta matorialy. Liviv, Krjyzhkovo-zhurnaline vyd-vo, 1961. 443 P. (MIRA 15:11) 1. Ukraine. Arkhivnoye upravleniye. (Lvov-Labor and laboring clavoes)  CUMSHIN, -Ye,yeo (Oherliashyn, 33$111j;---GIADYSMMKIY,-Te.I. (Madyshaveliq1t 1B.I.1; MIMAMMCR, P.I. [Kryp'lakavych, P.Ij Chemical proportion of intermstallic phases. Part 4: X-ray studies of extraction residtwe. Nauk zap. LIviv. un. 13:69-76 149. OURA 12:10) loXafedra obshchojr I worganichookojr khtwil Llvoyakogo gosudarstvennogo universitsta issid 1. IraWw. (Pbase rule and equilibrium) (Alloys-Ketallography)  man to M.-UX, a), V. 196 KRY-JURIP tow P. us-sm f4eviews aWm. an bad@ ot Ili* Istimmialre a" this aulbow tLA 1 4 u S, 43 it 1 it 't t -A.Z 41still ad 4mv sit '0 '46 w NSA* IS v 410 0 0 0 0  01',YAWEVICH, P. 1,  OW omw fbomm" kh4l.,Vwfl Wait floolirl. Woblo rbr fb,,m kV 1 C=C:A folom low ddwmnt 1w :w olfwtwr at We 4w .1 the A &I~ i"Inp. :#okv-1 Into dw ktfkv ul tk M*IP inst. Tlw dAmoutwo I'kvs at the #bow* 4*vot*e omimme vol dw A au"m or n- "low. $ft-smd ckahw (k dw book of two cm*krvd to the tw- powl. mck to* trooddests 40 Coom-Co4cm NW CasN-Cor am ' ow widgiWomiable. Abe. R is pileaMor got "Pooldow dw pmMbir intheirmw of saw I"as of %ttwilwos whb a ratio 44 off"gic"W"14 A,IN In fbr I.Ilhv 4.1 whkb thr 8 atomit ion not Owo ebobw Ilowtows rv#"- r"llro- - (IlaelvelL Mwv  -- - --- --- -- -- --- - -- - - - - --- --- - - - - - - - -- --- laborant. ,~ -"W., Morpbotreff avA-polymerphism of laternstallic phases of RX *md RX2.type compounds. Dop.ta pov*L#Ylv*uno no*3 pt.2.-23-26 152. (" 9111) (Organo-owtallic compounds)  117 GLADIAMS'.1KIT, Te.1,; IMPITAISTICH,-P-J-1. CHIMA HIN, Te.Te. Chemical properties ofthe intervistallic phases. Part 5: Analysts of the residue after extraction of maguestu, from alloys with copper and nickel. Sank.sapAlviv.un. 21:83-88 052. (NUA 10:7) 1. Kafedra neorganichnot Wait. (KVMOGIUU alloys)  CrAt"'Opqft,. ewwa.. 1- JuI732i- Aftystalline Structure of the Ternary Phase CU49g", Y*. 1. GlaUshavokiy, P. 1. Kriyy~ich., U. Yu. ftelyuk, LIvov State V imeni 1. Franko nD4* Ak Naut SSSR* 'Vol L=V, 31o 1, pp 81-84 PbAse CuXgSu (found by Gladyshevskiy, Kripyakovict, and Ye. Te. Cberkashin In 1950) to the other phase of the system Cu-Xg-Su, the authors conducted thex and roentgenological phase ana.2yees, and also inve tl~ptiqzs of the microstructure of alloys for the, swies Cu Wn-Cu, to find that the liquidus curve those slIc" pass tb"fth Us am Iz the case c a cows close to fthy*n and temP 750-4 shmn to be homogeneous'according to the zicrosti twe. G:L-ce results of roentgenogiapUc studies of powdered C%Xon . Submitted by Acad D S. Delyankin 23 Apr 50. i-A  IGY '03 'VIC -3 1UPI-111f till If I ::rr 411MV , 10 all sup"Ptum  -KRMAIWICHjj7: P. -1-*--aW-CIMUMSM# M-YE. - - "Systematic# of Double Intermstallic Phases" Isve Sektora ris. -Khin* Aft"Ita IONKh AN M=p 214 1954v pp 59-123 Classification of all kmn double IntervetaUle phases is outlinedq based on the structure type and chemical bond. The tabulation contains around 1800 double intermetallic phases as well as their distribution in binary alloys. (MFiz,, NO 320 1954) SO: W-31187j, 8 MRr 55  no Onirprj-.i!dv CcMrfsu i3t, 425 6N)- [In IKUMWAII~ 17 - If- -Lt": W V NL fl m". and from ", t.~ J, pum Sp X my -Wtfr*~ Lv)n tneth-i 7%t diniet, -.11" 4 W'hfflzin were "f the ablo'. ,I:J. r --l pvb%WP stivt n-r, ~ AM ii.. h a - 5"1 1 0002 Ara k anO NyKuSn. mop. As I b,-w A - I &r~ not 1,,u.-.i in Ob and NI &Aid suh, X.. :s thal both Co,KnSri and lomp[muds ockinoug t" the Aam J .43thnmgb W, abonuc rxdktw of (~j i mt a % 'Ii, . #A to tb" cam (if (IoOok. AM (-,.N al.'I J( L WYIP"- I K . I  USSR/Solid State Physics - Syotmw,, 9-4 Abst Journal: Beferat Zhur- Fizika., No 121 1956., 34666 Author., Gladyamevolkiy, Te. I.,, Kriplyakovich, P. I* Institution: None Title: X-Ray Structural Investigati cc of the Copper44agnesium-Zine System in the Vicinity Of the NSCu2 V49U2 Section Original Periodical: Wsuk. zap, Llvovslk. un-tu, 1955, 34, 64-71; Ukrainian; Russian resum4 Abstract: X-ray structural and micro-structural methode vere used to determine the region of the homogeneity of a solid solution of zinc In the MgCu2 compound at t -- 4000. The homogeneity region appears on the diagram of state In the form of a long strip, located along the M&CU2-MgU2 section, expanding vith increasing con- tents of Zn. The minimum contents of magnesium in the solid solution in 30 atomic percent and the saximum Is 38 atomic percent. The maximum content of zinc Is 39 atomic percent (58.5 molecular percemt Of MgU2). The lattice constant of homo- geneous alloys In the YgCu24%U2 section vith a structure of the MgCu2 type varies as the zinc content increases from T-020 to 7.161 kX. The V phase of the magnesium- 1 of 2 . - 1 -  USSR/Solid- State Physics - S 2-4 Abet Journal: Ref erat U.-ir - rizika, xo 12p 1956, 346a Author: Gladyanevelkiyj To. I., Kriplyakevich, P. 1. Institution: None Title: X-Ray Structural investigation of the Copper-bkgnesium-Zinc System in t,Ne Vicinity Of the WU2 - 1%ZD2 Section Original Periodical: Nauk. zap. Llvovslk. un-tu, 1955, 34, 64-71; ukrainian; Ruseian resum4 Abstract: copper-zinc system (Vg2CuZnh),was obtained by V. I. Mikbeyeva and 0. N. Kryukova (Izv. Sektora fiz. kbim. analiza, 1950, 20., 76), has a structure of the MgN12 tYP6 (a 5-113 c 16-55) C/a 3.24) and is identical to the phase at the VaCu2- M9ZD2 secticin, described by Luves and Lobberg (Luves, F.; 14bberg, K.j Strukturber, 1937t 3, 312)- 1 2 of 2 2  USSR/Physical Chemistry Crystals, -B-5 Abet Journal: Referat Zhur - Khimiya,, No 1., 1957) 213 Authors Kripyak evich.0 PO I* Institution: Lvov University Title: The Relation Between Quantitative Composition, Structure Factorl and Stability in Intermetallic Phases Original Periodicals 7Ap. Llvovsk. un-ta, 1955., Vol 34.- 78-83 (published in Ukrainian with a summary in Russftan) Abstracts The quantitative zampoeltim of phases with clearly-defined nonmetal- lic bonding., NI-As phases, and covalent compounds is determined by the valence states of the components. The quantitative composition of Intermatallic pbases with closest packing of atoms differing in size (e-g-) W6F67P M9ZD2P PZCU2, N012,, CaZn5,, NaZnl3, etc) is deter- mined by the structure factor of the atoms: The fraction of atoms with the smaller diameter (component X) increases as the ratio of the atomic radii k x rR/rx increases. If 2 or more closest-packing phases Card 1/2  USSWPhysical Chemistry - Crystals, B-5 Abet Journal: Referat Zhur - KhImiya, No 1,, 1957P 213 Abstract: containing atoms of different sizes are present in the system they will differ greatly In stability. The moot stable phase will be that in which the composition will most closely approximate the optimum closest packing composition for the given system (e.g., in the Mg-Zn system., where k a 1.17, the MgZn2 phase will be more stable than either the MgZn or the 1492Znll phases,, and in the system Ce-Ni, where k = 1.47.. the CeNi phase is more stable than the CeN12 phase); the stability of such 4aoes (MgZn2, CeN'5) is due to the absence of structural stresses. Card 2/2  MR/Chemistry Crystallography cam 1/1 Pub. 22 - 24/53 Authors I Gladysheyokiy, Ye. I., and Kripyakovich, P. 1. Title I Arrangements of Ou and Ng atma 'In the (,uXgSn stmicture P*riOdiC&l I Dok. AN &SM 102/4, 743-7,,,6, Jun 1, 1955 Abstract I It was established experimentally that the triple meta.11-ic CuMgSn compound belongs to the CaF2 structural type and that the Pb &tons in this compound occupy the cubical nor* dense shells and the Cu and Xg atone are arranged  ue q . : ---- . . - ,nstitution : The IV. Franko State University, L'vov Presented by : Academician N. V. Belov, December 24, 195t.  A'~e110Y,o9k-'eFK1C1_ P-27 USSR/11hysical Chemistry. Thermodynamics, Thermochemistry, B-8 Equilibria, Physical-Chemical Analysis, Phase Transitions. Abs Jour: Ref Zhur-Khimiya, No 5, 1957, 14682 Author : Ye. I. Gladyahevskiy, P. I. Kri vich- Inst : Institute of Organic an norganic Chemistry, Academy of Sciences of USSR Title : Solubility of Zinc in Metallic Compounds Cu2Mg and Cu2Cd. Orig Pub: Izv. Sektora Fiz.-khim. analize IONKh AN SSSR, 1956, 27, 209-211 Abstract: The solubility of zinc in Cu214g and Cu2Cd was studied by the roentgenographic method in specimens annealed at 4000 and tempered. The solubility of Zn in Cu2Mg, agreeing with data obtained earlier (Mikheyeva V. I., Kryukova 0. N., Izv. sektora fiz.-khim. analiza, 1950, 20, 76), is rrom, 2 to 6 at. percent, the lattice period changing from 7.020 to 7.182 kilocycles. The solubility of zinc in Cu2 Cd is considerably lower, it is about 3 percent and the lattice period changes from 5.013 to 5.016 kilocycleB. Card 1/2 USS~/hiysical Chemistry. Thermodynamics) Thermochemistryi, B-8 Equilibria, Physical-Chemical Analysis, Phase Transitions. Abs Jourz Ref Zhur-Khimiya) No 52 1957) 14682 Abstract: The authors explain it (using the theory of energy zones of Brillouin) by the greater electron capacity of Cu2Mg. The computed magnitudes of the limiting electron concen- tration for Cu2Mg (1.72) and Cu2Cd (1-36) agree well with the data about the solubility of Zn in these compounds. Card 2/2  _K P Category i USSR/Solid State Physics - Systems z_4 Abe Jotir Rof Zhur - Fizika, No 3, 1957p No 6604 tuthor Krigg2kavich, F.I., Gladyshovskiyj Yo.I. Title i Crystalline Structureof the Compounds CrB0121 VB0121 end NbHe.12- Orig Rib Dokl. AN SSSR, 19r-6, 104, No 1, 82-84 11 Abstract The R-Ba syntams (R w Or, D, Nb) was found to include com- pounds of composition RBoln with a structure rf the type ThYn (Fodorov Group lh/;~z) with atom positionst 2 R in F in 8W with x . o.361 end Zlie(lj in e(f), D0(2) 10(3) ( in 8(j) w th x - 0.277. T,ie lettico periods era : CrBO12 a-7.219, c.-A'168; VBon -- o-7.251, c-4.i86; M012 '_ a-74357, c..4247 k7; in all tho itritatures c/z 0.5717. The R atom Is surrounded by 8BO(l) + 4~o(2)+ 8 Bo(3 (20-vortox figure-)# the atom Be(l) is Burroundad by 2SOM 4 L4 2~ + 4 Bo(;) + 2 R (deformed icooohedron) the 80(2) atom bycf e(2)+ 4 0~2) + ~ Ba(3) + 2 BON + 4. PON + I R (14-vartax figure), an the BaM ato" by + 4 Be(,) + Be(,) BO(2) + 2 Bo(2) + Card 1 112  Category I USSR/Solid Stnto 1hysics - Systomr F-4 Abs Jour t Rof Zhur - Fizikn, No 3, 19517, No 6604 2 R (deformed iconphedron). The coordinations of the atoms indicates a similarity between structures of the typo Thkn12 and structures of the tyroo W6Fc7l I'gZn2l 4%, P'19K2, CoZnc*, 1:92"';n1j, BVCdjlq and NrtZnl3 The interatomic distances in' the atrucutres of RBe are von. Card 2/2  4/0 KRIPYAKEVICH,, P. I. Cand Chem Sci -- (dine) "Studles'*P the Crystallochemistry or Metal Compounds With High Coordination.Numbers." L'vov, 195T. 12 pp 23 am. (Min of Higher Education Ukrainian SSR, L'Yov State Univ im I. Prw*o, Chemical Faculty, Chair of Inorganic Chemistry), 150 copies (KLO 26-5To 105) - 18  r--cmW4SHIN. TO.Ye.;IMIPITAKNICR# P.I.;IRAMTICHO D.P. Tsru&x7 solid solutions In the systen On - Ng - CL [with suxw&ry in ftlish.l. Dep. AN U182 ne.1133-37 05?. (NLRL 106.14) 1e 14'vivvlkiy dershavuly univermitst Ix6 Iv. Franks. Prefttaviv aka- demik AS =1 0. ;,. Brodeskir.. (copper-umoganese-GaWpa alloys)  70--EG-6/12- ,WTROR~p ladyshevskiy yakevich, p* I. ,,To I. and KriP TITIE: The Crystal Structures of the oo,,pou,-,3-s-j1uBe 121 WBe 12 and TaBe 12' (Kristallicheskaya struktura soyedineniy MoBe 121 WBe 12 and TaBe 12-) PERIODICAL: Kristallografiyal 195?9 Vol.2, No-62 pp. ?42 - ?45 (USSR). ABSTRACT: Be forms compounds of the ThMn 12 type with Cr, V and 14b. An investigation to see whether there were analogous compounds with Mo, W and Ta has been made. The existence of a compound of Mo and Be with a composition about MoBe 13 and a tetragonal unit cell (space group F42) with a-10.2? and c=4.29 KX and Z-4 (B.G. Gordon et al., J. Metals, 3, 637, 1951) was known. The compound NbBe with a=7.357 and .c=4.247 KX was also known (Dokl.Ak.vauk BS ;J2 , 104, 821 1955). Mo was melted with Be in a BeO crucible under argon in an HIF. furnace and the resulting alloy wgs found to contain 92.3 atomic % of Be. It was mnealed at 400 and on quenching was found to have a homogeneous micro- structure. Measurements of an X-ray powder photograph (57.4 mm dia. camera, unfiltered Cr radiation) are given. Cardl/3 comparison with measurements of ThUn 12 shows it to have this  70-6-6/12 The Crystal Structures of the Compounds MoBel2t WBe 12 and TaBe,2. structure and therefore the formula MoBel2 . The cell dimensions are a=71237 + 0.004 and c - 4.233 � 0.002 K1. Intensities were ea culaTed for a structure of the ThMn.2 type with space group 14/mmm with 2 Mo in (a), 8 Be in (f), 8 Be in (i) with X-0-361 and 8 Ise in (J) with x-o.277 and very good agreement with the experimental data was found. Since this work was done, Raeuchle and Batchelder (Acta Crystallography, 8, 691, 1955) were found to have obtained exactly similar res_ults. The compound WBel2 was similarly prepared as was TaBe,, and their unit cells were found to be a-7,220 + 0.004, c=4.224 + 0.002 KI and a-7;322 + 0.004, c=4.247 + 0.002 KX, respectively. The ThMn12 truciure is thus'foilnAd for the compounds of V, Wbt Tal Cr, Mo and W with Be. In the Mo-Be and W-Be systems new compounds richer in Be than MoBe (about 98 at.% Be) have been found which have cubic-face centNd cells with a-11.60 and 11.59 KX reepectively. I.V. Smollyaninov participated in the work. There Are 2 tablezy*nd 4 xvferences, 1 of which is Slavic. ASSOCIATION: Ivan irranko State University, I/vov. Card 2/3 (L'yovskly Gosudarstvennyy Universitet im. I. Franko)  the Crystal Structures of the Compounds MoBel2l WBel2 and TaBel2- SUBMITTED: October 1, 1957. AVAIIABIR; Library of Congress. Card 3/3  137-58-5-10414 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p Z18 (USSR) A UTHORS: Cherkashin, Gladyshevskiy, Kripyakevich [Cherkashyn, Ye.Ye., Gladyshevslkyy, Ye.I., Kryp"yakevych, P.I.) 'TITLE: Compounds of the Trangtti-o--n-ITe-fgTs--W-i-th--Beryllium, Silicon, Germanium, and Tin (Soyedineniya perekhodnykh metallov s berilliyem, kremniyem, germaniyem i olovom) [ Spoluky perekhidn kh metaliv z beryliyem, kremniyem, germaniyem ly i olovom PERIODICAL: Dopovidi ta povidomlennya. L1vivs1k. un-t, 1957, Nr 7, Part 3, pp 180-183 (in Ukrainian) ABSTRACT: An investigation is made of binary and ternary systems,(Mn, Cr, V. Nb, Mo, and W with Be; Co +Si. Ni +Si, Co +Ge, Ni+ Ge, Co+Sn, and Ni+Sn with Mn). X-ray and microstructural analyses were made, resulting in the discovery of 17 new compounds and determination of the crystal structures of 12 of these. (See Table on Card 2) Card 1/z  137-58-5-10414 Compounds of the Transition (cont. Compound Structural Type Syngony Lattice periods, kc Mn Be 3-13 Md Cu? Cubic 5.91 Gr BeIZ ThMnIZ Tetragonal C~ s-- 7. Z 19, c -- 4. 16 8 Mo Beiz 11 . - -- 7.240 4.180 V Be 12 it 7.251 4.186 Nb Be 12 of - 7.357 4.247 Go2 Mn Si CS CI Cubic a z ZAN C?2 Mn Ge CuZ Mn Al #1 5.72 Ni2MnGe 5.68 Go2MnSn 5.991 Ni2MnSn 6.045 Mn3Go3S'?. Md ZnZ Hexagonal Q(= 4.738, c 7.452 Mn3 N'3 S'2- It if 4.752 1.492 Mn and Be form coupounds of variable composition MnBe3 13 with a wide interval of homogeneity. The compounds CO?MnSn and NiZMnSn have mpiting points of 950 and 10500C, respectively, and are ferromagnetic. G. L. 1. Chemical compounds-Production 2. Chemical compounds-Microstructure Card 2/2  A)V/ A Z_ V SOV/1 37-58-10-21414 Translation from: Referativnyy xhurnal, Metallurgiya, 1958, Nr 10, p 136(USSR) [ Kryp"yakevych, P. 1. Hladyshevsl kyy, S. 1. 1 X-ray Diffraction Investigation of Cr-Be Alloys with a High Beryllium Content (Rentgenostrukturnoye issledovaniye Cr-Be-splavov s vysokim soderzhaniyem berilliya) in Ukrainian PERIODICAL: Dopovidi ta povidomlennya. Llvivslk. un-t, 1957, Nr 7, part 3, pp 183-187 Alloys containing 70. 9 - 98. 5 atom- '/o Be were investigated. The smelting was conducted in quartz ampoules in an H Zatmo- sphere. X-ray diffraction patterns were photographe in unfiltered Cr radiation from powders annealed at 4000 . Com- parative tables of the results of the interpretation of X-ray dif- fraction patterns are adduced. It was found that alloys with 70. 9 - 75. 5 atom- O/o Be consist of the CrBe2 compound (of the MgZnZtype). The X-ray diffraction pattern'of the alloy with .95. 5 atom. 0/o Be has only lines corresponding to the CrBe compound. This compound has a tetragonal body-centered lattice with the following periods: a = 7. 185 * 0. 02 kX,  SOV/1 37-58- 10-Z1414 X-ray Diffraction Investigation of Cr-Be Alloys (cont. c = 4. 148 * 0. 01 kX, c/a = 0. 577 and 26 atoms in the elementary lattice, while two atoms of Cr are located in (a) positionS dnd 24 atoms ot Be are in (f), (i), and (j) positions of the Fedorov group 17 D - 14 mmm. 4h 1. Beryllium-chormium alloys--X-ray diffraction analyois A. F. Card Z/Z  AUTHORS: Kripyakevich, P. I., Khorin, Ya. D. SOV/163-58-1-36/53 -01 TITLE: The Crystal Structure of the Ternary Compound in the System Titanium-Chromium-Cobalt (Kristallicheskaya struktura troynogo soyedineniya v sisteme titan-kt=m-kobalft) PERIODICAL: Nauchnyye doklady Vysshey shkoly. Metallurgiya, 1958, Nr 1, pp 198-200 (USSR) ABSTRACT: In the system Ti-Cr-Co the triple bond TiCr 2Cc4 is formed. The radiographic investigations of TiCr 2Cc4 showed that this com- pound has cubic lattices. It is assumed that this compound is a structure of the a phase or a-Mn type. The structures of the three phases were compared to one another and it was found that the intensity of the lines in the radio- grams of this compound agree. The compound TiCr 2Cc4 is very similar to the compound Mo 5Cr6 Feis (7,-phase) as regards its structures The interatomic distances in the structure of TiCr 2c0 4 were given in table 2; these distances of the structure as well as of the structure of the Card 1/2 a-Mn (a - 8,89 k) are very probable.  SOV/163-58-1-36/53 The Crystal Structure of the Ternary Compound in 'the System Titanium- Chromium-Cobalt The coordination numbers of the compounds TiCo 2 and TiCr2 Cc4 are 16, 15 and 14. There are 2 tables and 6 references, 2 of which are Soviet. ASSOCIATION: Moskovskiy institut stali (Moscow Steel Institute) Llvovskiy gosudaretvennyy universitet (fvov State University) SUBMITTED: October ll 1957 Card 2/2  78-3-3-17/47 IUTHORSt Cherkash1n, Yee Ye. , Gladyshevskly; Ye. 1. , Kripyakovichg P. 1. , Kuzlma, Yu. B. TITLE# X;Ray Structural Investigations of Some Systems of Transition M tale (Rentgenostrukturnoye iseledovaniye nekotorykh sistem perekhodnykh metallov) PERIODICALs Zhurnal Neorganicheskoy Xhimii,195a,Vol-3, Nr 3,pp.650-653 (USSR) ABSTRACTs By the X-ray structural'method alloys ir. the following systems were investigatedo Kn-Be, Or.-Be, V-Be, Mo-Be, W-Be, Ta-Be, Nb-Bej Un-Ye-Siq Un-Fe-.Sn, Mn-Co-.Si, Mn.,Co-Ge, Mn-Co-.Ni, Mn-Ni-Sig Mn-Ni-Geq Mn-KI-Sn, Un-Cu--Si, Zr-V.-Ni'0 Zr-Cr-Ni, Zr-Kn-Ni, Zr-Fe-Niq Zr-.Co-Ni. By the investiagtions of the systems the gollowing now com.- pounds were determined which occur at 400 C1 KnBe. (at t -, 11M Ot the composition is UnBe 3 13 of the type KgCU2)1 'CrBe,2(ThMn,2). VBe,2 (ThMn,2)) NbBo,2 (ThKn,2)m Card 1/2 NbBe2, NbBe 50 KoBe,2+,'WBO,2+,, C02Kn8i (CeCL'), Mn3CO,3U2  78-3,3-17/47 X-Ray Structural Investigations of Some Systems of Transition Metals (Ngzn2)9 XnCoSiq Xn,2 CO3Si 59' Un3Ni Si (XgZn ), wasl~ 1~ MnSn (Cu UnAl), 02UnGe (CU2MnAl)V Ni 2UnGe (CU 2MnA , Co2 2 Ni2MnSn (CU2MnAl), ZrMnNi (MgCu 2)1 ZrVO,5N'1,5 (MgCU2)' In the systems Mo-Be, W-Be and Ta-Be compounds with a tetrag onal structure occur. The composition determined for the first time is the followings MoBe,,, WBe 12 and TaBe 12' All these compounds belong to the type ThXn12* In the system Mn-Fe-Si the following solid solutions occurs Mn3Si and Fe3Si. In the system Mn.-Co.-Si solid solutions of cobalt and silicon in A-Mn occur and solutions of cobalt in Mn Si3 and Cc in KnSi. In the system Zr-,Fe-Ni a solid solut2on of Ni in ZrCo 2 occurs.- In the system Zr--Co-Ni a solid solution of Ni in ZrCo occurs. There are I figure and 11 references, 5 of whici are Soviet. ASSOCIATIONt Llvovskiy gosudaretvermyyuniversitet im. I. Franko I (L'voY State University imeni I. Franko) SUBMITTEDs June 25, 1957 Card 2/2  AUTHDRSt TITUs PMODIOALi PylVi-fto Te.R.o Gladyshe,"4y, Ye.l., SOV/ 78-3-7-28/44 KeLvjmk,TviOh, P.I. The CryAtWn~ine ~.aUira of the Oompomda Ni4ft and Ni 37& (Kris UlUoheakw struk-hLm soye3!nenjy Ni3NI6 i Ni~T&) Vkhurml momaanlohexk~7 khSudiv 1958, Vol 3p Nr 7, PP. 1626-1631 (USSR) AMU= Tba me-tallic oompowids Ni Nb and Ni 3Ts, and 9 tav:u~.r alIM of the series lft,~I& -NY& w0ra ivrestigat&3 'With respect to their mtraoivrs'by t a X.-my mthod. Ths rssult8 obtained e 4how-01 ttAt the wqxOnds N.-43Nb axA N13?& belang to the stmotural -type P-Ca Ti The structural arrangeme&. of atoms is the follow- ingt 2 Nb ?CX:Ta) In (a) with Z& = 213 2 NI in (b) with Zb - 113, 4 Ni in W with x = 1/4; Zf - 116. The Utftc.3 oonstar-t. fo- the -AmjxcnJ N13Nb are the following: a - 5 - 10, ID - 4 - 41, --. - 4- -.53 Y,: Tb)j ratio a t b t a m 2 % 1 P66 1 1!,78 Cara 1/2 For the oompouna Ni~U tbm Uttias constants are &a follows:  The CMtallina Stra,)turv of lbe Cowporm4s Niyr:l 30V/ 78-3-7-2444 &a 1"3T& a = 5.09D b m 4.9.3# 4.51 X b to 2 1 1. 66 1 1 .77. Tbj o;wpmLdx Nlfflb ","3T& tvirether fom contivams series of solil solutlow. Th.-on arcs 2 f1gr4ri", 2 tableis and 5 references, 3 of wb1oh aro Soiivt. ASSOCIATION: Institui zat&13axgii Ira. A.A.B*Avoa AkMsmii vAuk WSR i Vsmk~y gosunive.-alutim. I.Fmnlw (Inatitu.~.e of Met&llurgy imin, A.A.BtykoT, AS USSR and VvoT Stats~ Unlveraity imovi I.Frarko) SUBMITTED: 18P 1957 1. Intermotallio compounds--Crystal struotare 2. 7ntemetallic compounds-Atomio struoture 3. Tntermetallic compounds-X-ray ann-lysis 4. Intermetallic, cmpounAs-Lattices Card 2/2  KRIPYMYICHt P.I. KMII&kevycho PsI# "*--~~s ;rmiiucture of the compounds VgLiZn and YCIA 25 Zn .71. 21 Ikuk.z&P.Vviv.un. 46:107-314 158. (;K 12:7 (Napes ium-lithium-s im alloys)  11RIPT (Kryp'lakev _yc'i. P.I.I.- GLADYSHITSKff- Ye-I.- Pladymbevolkyl. LB.t.]; ZALMSKIT. LL (Zalutokyl, Ij, pri uchastil studentokS TATIO11110SWO, V.I. [12rdokyuenko, BORUSSTICH, L.K. (Borusavych, LA ,I Crystal structure of the compounds ZrNI 40 80(nXI. "nd ZrVC3St 105 Nkuk.sap Llviv.nni 46tll8-123 '58- (14IRA 12;7) (Systaw (Chemistry))  A-K IL 41  7i I $%now* *moo" f"-4 joillipa.  15(6) AUTHORS: TITLE: PERIODICAL: ABiTIHACT: Card 1/3 Andriyevskiy, A. I., .z-blitavich, 1. D., &V/P-G-124-2-221"I'l Kripyakovich. P, I~- On the Stru.-ture of Sclaniuu in TOin T,,,tyers (0 ntrulttu-ra 3clena v tot%',:ikh oloy-,M-10 Doklady Alcademii nauk SJSR, 1959, Vol Uj',, lir 2;, pp 321-323 (USS11) The authors produced tho s=,-plps for their investiCations by sublimation of chemically pure vitrcouc or of red amorphous selenium in- vacuum (r.6010-4 ma): 1) On zapon varnish filmowhich were mounted on wire loops. The base was then dissolved in acetone and the selenium film was fished out by means of a copper net.-2) on zapon varnish films which were mounted on a specimen holder made of copper wire netting. The selenium film was then coated on the top with a second dense zapon varnish film, Sublimation was in both cases carried out at room temperature and the evaporation of vitreous or red amorphous selenium under thece conditions led to the production of red amorphous selenium. A film thickness of 600 - 800 2 is best suited for determininG a normal diffraction picture. During the  On the Structure of Selenium in Thin Layers Card 2/3 SOV/20-124-2-22/71 thermal treatment of the first samples (without bases) the following results wore obtained: If ~he samples are exposed to a temperature of 250 for 5 hours, the electronogram of such samples consists of 4 aureoles, which are lacking in the case of an clactronographic investigation of freshly prepared samples. Gradual heating to 300 increases the aureoles somewhat, and weak lines form on them. At 35-40' the olectronogram of a polycrystal already became noticeable, which is characteristic of the ot-monoclinic modification of selenium. An increase of temperature up to 55-600 leads to recryntallizationg and at eu650 f-monoclinic selenium was observed. A further increase of temperature up to 150-1600 leads to a gradual reorystallization, and if the samples are kept for apme time at a temperature of 1600, a now hitherto not observed modification of the selenium occurs. The new structure of selenixw belongs to the cubic syngony with face-centered cubic latticet. This structure is here described as P-oubic (see the 15 photo- graphs in figure 1). The thermal treatment of the selenium layers enclosed between zapon varnish films was carried out immediately in the electron microscope at a pressure of 10-5 torr. After such a local thermal treatment not only  On the Structuro of Solonitu. in T21jj;i :A~ 1/;!U- 1 ?1"' -~-:f?/ 71 various ;.1,--c-trono o." t %in -, ob tt in addition rocults, bitt .-.l:,3 P s.i I not obro:!v:.-d cr~uiti I)o ~Ihio 110-~' --otli2ict-ttion a -citl,ic. -:!to ia~,,incitioc obscryed n~:roe well -'ULI. wore o".1cul""toa -L'or c. ."Lr1!ct1"rG '..'ith Ono -.16or 1-,~: olo..~011%ary t-011. A1.,;0 Clio strv.oLurc is, lill:0 !-ot'~i.Cicrtionrj o-.' 001:1niul:1, stmIlle %L roor 1'0!-I.!nl L'ath modifications L."'ve ~!.r') not Ur;Ml rith coleniun. can by all ncrno be do:;crib-.41 P-:; r,~:obnblc. T'-c concii'lorable increase ol, the ato:.lic radius (1.435 1) of rolunium in cubic aL- modification as compares to the covalent rudius (1.16 9) can be explained by variation oi* the character of coordination. There are 2 f iguroo 1 table, and 11 rof erences, 10 of which are Soviet. ASSOC IATI011.1 i Llvovskiypolitekhnictieskiyinatitut(Livov Polytechnic Institute) iRESo."ETED: Septembor 9, 19509 by U. V. Belov,p Acadomician SUT Ii., IT"TED: Auggust 25, 1958 Card 513