SCIENTIFIC ABSTRACT ZAMKOVOY, V. - ZAMOLOTOV, A.

ZWOVOTS~14"_. 1~ 3 wGeography of the Ukrainian S.S.R." Ol.T.Dibrova. RO-71eved by V.Zamkovoi. Geog.v shkole no,6:71-73 X-D 134. (MLRA 8:1) (Ukraine--Geography) (Dibrova. Ol.T.)  ZAHIOMY, T*P. (r,.Artemovok) Natural history of a coal regioz ("Natural history of the Donets Basin". A.Sliusarav. Reviewed by V.P.Zamkovoi). Priroda 45 no-7: 117-ile ji 156. (KUIA 9 . 9) (Donets Basin-Hatural history) (Sliusarev, A.)  - - I j--7;r.P .- - --- - --- , - --- -- - - - ---- - - . - - - - --- - - -- - - - - - - -- - - - - - - ZiV-',KOVOI) V.P. Vozrozhdenny-i Donbas. (Geografiia v3shkole, 1949, no. 5., p. 22.). IDLC: Unclass. SO: LC, Soviet Geography, Part 1, 1951, Uncl.  ZLYKNCY, V. P. 42291: ZAMKOVCY, V. P. - Vozrozhiennnvi, Kochegavka Soyuze. (Donetskiv 1-,-sae.vn). Nr!uk? i zh i zn' , I C48, I. o. 12, s - 7-9. SO: Letopis' Zhurn'~7 In the exper3ments tit Dnoprcpatrovsny igricultural InaWute, com pluntea cin thu 2ith of itpril- (variotj Uspekh) reachad u hf~ight of 8C-110 ewitimuters Joy tliu 5-6th of July. Fonm:itibn of flowere wus in pre)greas in the 1~.rimorcial pai.icllc~ in the mmiority of tht: plunts- z-oci elong- Rtiot, gria aiffertmtiation cf the terminal axillary butts was hm:ginnin~:. The Txving of the green bulk wtie aoue on the 8th c;' Jury qt a height. of 8-1.5cm. A-, the result of the i . the height of mowing, thts stalk In sc,tj;,L: Plant2 wes CIA off (in of th, plants), in othzrG - the JABSTRACT  'COU11TRY CANCORY ABS. JOUR, RZhBiol.,, Mo. 195 paio. 1047)2 AUTFOR DIST, TITLE iORTO. PUB, ABSTPAr caveloping peiiele was later reflectea in the overall CT aiminution in Vae size of the platits. The earlier the wowing wee done, tha larger were the dimensions attained by the gr!:;wing plan-.a. Lelay in the development ana the l9g in growth bra explainea by the removal of a conaid- erable part of the a8similating surface. Plants with the stem cut, i.e. those in which the primordial panicle and part of the stem with axillary buds were removed, grew for CAPIN 3114- I' ' I 72  ZMjTOVOYv G. T. Wheat Selection of spring wheat in the Far East. Sel. i sem. 10, No. 6, 1952. Monthly List of Russian Acgessions, Library of Congress, September 1952. UNCLASSIFIED.  ZA)MDVOT, I. Youndry coke of cbarges containing gas coal. Koko i khin. nool: 26-27 161. WRA 14:1) 1. Stalinskiy sovnarkhoz. (Rutchenkovo-Coke)  ZAI,XOVOYI V. P. PA 67TT6 UM/Chsmlistry - Mercury, Properties ft 1948 Chemiatry - Narma7 "QuicIk $11wer,' V-P.Ze6kovoy, 2 pp 4auka i Zhitn'" No 5 Describes chemical and physical properties and 'characteristics. Briefs some of the uses for quick a ilver. 67T6  ZSIDKOVAP 8.1 ZAIKOVSKAYA L 1%thodology for planning labor productivity In the alcohol induatz7, Biul, nauch. Inform.1 trud I sar. plata. 5 no.91 lo-3.4 16;!. (MIRA 15310) (Distilling industries-labor productivity)  ZANKOVSKIY, D. How clothiq~ should be sold. Sov. torg. 37 no.llt2l-;!4 N 163. (MRA 16:12) 1. Upravlya,,Tushchiy Moskovskoy shveynoy torgovoy bazoy Rostorgodezhdy.  ZAMWVSKIY, 1). work of sowing enterprises. Scv. torg. 3.3 no.6:19-23 Ja '59. (NEU 12:8) kOlothing industry)  BABIKOVA, Natallya Ivanovna; DIDENKO, Valentina Sergeyevna.; Lhaitriy Yakovlevich- TISHENINOVA, Him Mikhaylovna; ISHKOVA., A.K., -d~- -MOY e 1HI.- ~... t;kbn. red. r [Work organization in a workshop for the sewing of GuAom-made clothes] Organizatsiia truda. v atelto individuallnogo poohiva odezhdy. Moskva., Goatorgizdat,, 1962. 229 p. (MMI 15:6) (Clothing industry-job descriptions)  VOLYNCHIKOV? N., .-Lnzh. (g.Lebedyan') ZAMKOVSKIY, I.; OKNER, Kh.; NIKOLENK01, M., inzh,; VLASENK , r.-W vMjMw) The reader continuoB the discussion. Sov. profsoiuzy 18 no.8s 16-18 1152. (MIRA 1514) 1. Predsod 'atoll meatkoma aluzhby Yodoonabzhonlya st. Simferepoll (for Zamlhovskiy). 2. Predsedatell postroykoma stroyupi~avleniya No.3 tresta "Promstroy"t g. Dushanbe (for Okner),, 3. Cohlen mestnogo komiteta proyektnogo instituta "Mosbassgiproshakht", g. Tula (for Nikolenko). (Socia-list competition)  25(l) PHASE I BOOK EXPWITATION SOV/2107 Zemkovskiy, VRp &ad V. Ye. Svets, Compilers Podgotovka metalle. It prokatke i otdelka prokata; obobshcheuiye laeredavogo opyta (Pmaring Metal for Rolling and Finishing Rolled Products; General Conclusions From Progressive Experiments) Xhar1kov, Metallurgizdat,, 1958. 279 p. 2,600 copies printed. Sponsoring Agencleis- Ukraine. Gosudarstvennaya planovays komissiya and Vsesoyuznyy naualmo-issledovatelfskiy institut organizatsli proizvodstva i truda v chernoy aLetallurgii. Reap, Ed.: L,V. Shapiro; Ed. of Publishing House: S.S, Idberman; Tech, Ed#: S.P. AndriM. PURPOSE: This bool. is designed for workers prioparing metal for rolling and in finishing rolled stock at metallurgical plants. It may also'be useful for students in vu7ms and teknikums. COVERAGE: Practices of Soviet plants in preparing metal for rol]-ing and in finishing rolled. products are presented. These two phases ant admittedly Card l/ 5  Preparing Metal for Rolling (Cont.) SOV/2107 the weakest link in production of rolled stock* The most effective equipnent for descaling stDck is described. Methods of removing defects and dressing metal are discu&3ed. Quality inspection of metal surfaces and the packing and storing of finished products are described. Illustrationvaree given in the form of pictures,, drawings, and tables. Methods for paparing metal for rolling and for finishing rolled products developed in non-Soviet countries are also briefly d-' scussed. Personalities mentioned include engineers U.S. Slavkin (Glavspetostal'),, N.V. Amchislavskiy (W), B.D. Trakhtman (MM), N.M. L'omoytsev, and S.R. Druth-Inin. There'are 57 references; 38 Soviet, 14 RnFa i sh, and 5 German. TABLE OF CONTMM- Introduction 3 I. 'Iatvxt~of ftrfem Defects 5 11-0 XGthb" Of SUrfWO MObZiAg Of YAW 12 1. Met-homical elean'T, 13 2. Poideblng 21 3. Chemical cleeming 29 4. Gas flame cleaning 38 Card 2/ 5  Preparing Metal for Rolling (Cont.) SOV/210T III. Control Surface Quality and Dimennions of Rolled Products 43 1T, Methods of Removing Surface Defecto of Metal 49 A. Selection of a method of removing surface defects 49 B. Flame scarfing 56 1. Esnentialis of the scarfing method 56 2. Structural transformations and conditions leading to the formation of cracks during scarfing 59 3. Heating of metal before scarfing 62 4. Scarfing equipment 66 5. Combustible gases and oxygen used In scarfing 91 6. Factors atfecting surface condition and productivity 94 T. Organization of scarfing operations 9T 8. Progressi,m methods of operation 104 C. Fnbumktid chippi:bg 3-13 1. Type,, size., and condition of the ptematic hawer 113 2. Exchangeable cutting tools (chisels) 3-18 3. Pressure of compressed air 130 4. Mechanical properties and surface conation of the chipped stock 132 Card 3/5  Preparing Metal for Rolling (Cont.) SOV/2107 5, Organization of operations 133 6. Progressive methods of operation 139 D. Abrasive ebiiNing 147 1. Properties of an abrasive vhee:L 147 2. Cutting speed 154 3. Construction of machine tools 160 4*~ Ventilation of the operator's stand on an abrasive machine-tool 186 5. Organization of operations 189 6. Progressive methods of operation 194 7* Combined abrasive and pneumatic chipping of metal 198 E. Machine chipping by turning, planing,and milling 204 1* Machine chipping by turning 204 2. Machine chipping by planing 211 3. Machine chipping by milling 214 V, Table s for Removing Surface Defects and Tilting Devices 224 1. Tables 224 2. Tilting cyr metal and tilting equipment 228 Card 4/5  Preparing Metal for Rolling (Cont.) SOV/210T VI. Straightening of Metal 23T 1. Straightening presses 238 2. RoIler-type straightening machines 243 3. Rotary-tnm straightening machine 243 VII, Inspection of Rolled Stock 253 V.D. . UWing of Working Places for inspection and Chipping of Metal 259 IX. Packing and Stozing Rolled Stock 263 1, Packing rolledL stock 263 2, Storage 266 X. Production Planning and Follow-up, of Stock in the Finishing Line ZT1 Bibliography 2T5 Appendix 277 AVAIIABIz: Library of Congress (TS34O.P26) Card 5/5 GO/mas 8-11-59  ASHERSON, M. (~erg~Lna); ALEKSEYLVA, M.; ZAMKOVSKIY, V., litoyshchik; BYKITIA, V. (Kiyev); WBKO, A.; DUKHNEEEVICH, B. (vilnyus') On good people. Sov. profsoiuzy 19 no.11:19 Je 163. (MIRA 16:8) 1. Literaturnyy sotrudnik mnogotirazhnoy gazety I'abrik.1 11-Skorokhod". Leningrad (for Alekceyava). 2. Mekhanicheakiy zavod "BanteMprom", Simferopol.' (for Zamkovskiy). 3&,Nachallnik otdeleniya Gosudarstvennoy avtomobi:LInoy flippektsii Sovetsk%)ZO rayona, Kuybyshev (for Zubko). (Trade,unions-oOfficers)  ,ZAMW3UX,-,LR.,. at. n8u4bVy sotrudoik.; SMS, V.Ya-, ml. asuchnyy sotradnik.-, SHAPIR06 L.T., otv. red.; LIBERMAN. S.S.. red. izd-va.; AUMMY, S.P., tekhn. red. [Preparing metal for rolling and the fintabivg of rolled products; generalization of progressive, practices) Fodgotovka metalla k proketice 1~ otdollm prokata; obobahchenie peredovogo oprt,~. Kharlkav, GosA naublino-tekha. izd-vo lit-ry po chernol i tpvatnoi netallurgii. 1958. 279 P. (HIRA 11-12) 1. Vsesoynzny7 nguchno-lesledovatel'skly inatitut organigataii proizvodetva 'i truda,v chernoy metallurgii. (Rolling(Ketalwork))  m - . -tVT!P~~N-~Nv , -,- PNYCHNV, G.; KOTON, I.; UMKOVSKIY, V. Technical control at the steel plants. Sots.trud 4 no.8: 72-75 Ag 159. (NIRA 13:1) (Steel industr7--quality control)  ZPJIKOVYY, Valentla [ZamkoVij V.) Ukrainian pencil Znan. ta pratsia noo7.-P$ J1 062. (141PA. 15-~) bkra4ne Pencils) ;  a K.OVYY,-- Valentin ~[Zamkovyi, Valentyn) Treasure of Konstantinovka. anan. ta pratoia no.4:14-15 Ap 163. (MIRA 16:6) (Konigtantinovka(Donetak Province)-Glaos factories) I  ZAWOVYY, V. Germanium. Znan.te, pratela no.1:9-10 Ja 159 6MA 12:10) (Germanium)  0 ~* 4 to Is w a X C A-Al CA- r- al T. U u A 00 00 - CA T ZAM Pokek. Ila of ump, aa b"&.d Cd-u I jJ42800- be uftmi" updaly the W, Z Col. *so k" ww fvswsisok*"~ , , cow. ..,F* fv~, Oww~, 40aw me IN _.TM go of bad I b Y ft X 1. It 1-1-FAT on UO usism *mass 00 Aj Moog ra 1:1cos to Cleo cc see 00% WW- b~m efftabUdAW-Am W. R. A. LA~11:$L&. 91TALLU"ICAL LITIOAUM WiSWOCATICOO S.14.4 -.1. ~v CIT, tee Cie u 0 4, .0 al; ; i's so - - - -.000*41 --!To-* a 0 0 file a 0 64004 6 0 0 0 41 0.0 0 0 a  SVETS, V.Ye., inzhener; ZAKKOV5XIT,-Y,.R., insheneri SWIRO, L.V., Inshener. Conference an the preparation of metal for rolling and finishing of the rolled shapes. Ketallurg no-10:36-39 0 '56. (MM 9:11) 1. Orgehermet. (RoUing (Ketalwork))  2AMLINS=,--,Vladimi,r.~L7Zamlinsikyis, Volodymyrl,- MIKIMYLICHU-;X00. ---'---tV,ykhailyclwnko,, B.I. red.; PAVLOV), A., red. (The astronaut) Astronavt. Llvivv Kameniar,, 1964. 12) P. (MIRA 18:2)  l v IF 00000000 0000006640 4 o 0 0 0 0 0 0 0 0 04 1 1 1 4 1 4 1 F IV It It If 14 It 14 1? to J01 I 1111 JIMA 10 )4 v I, Jj 1) AID 16", wht $I $it) 44 *1 A A. j A Y , p A I (ic to 11 of hla d4- i l ' , fl i 4 ce t n ail dql NILS 1vol'-Thr l tcrup. I'visrma i dad 00 c on I hr aleg)(Pliou, o(ultriviol, ( rwliatioll by Cd vaimpt toolvi 41-01 mm. ptrwirt wAs sludwd, the %mrcv of radot ion was a hydrogen lAnt 1) (:P 9 A Iv., OX, amp.). It WO *a% found thAt the dcIfev 4-1 diffmim of the ductuAtlof. -00 lmnd% (wave lcnStlt4 21,40-2;Ol AA inetcAwi vvith ictup. Uls can lx- act-wnted for Isy the iijvrravd iotation en. rrgy of Cd, m0s. The r%imrure of 2 bind wsiv,i ~n llic .00 rrKicm 3177, ;Ml) A. and M71) ;PQS A. is conifirmcd (ef. l l C 1 2 M - L i N10drr wnd ... fc. . . . 2 . und )AW~-411ki, C. .1. 2j, ' ' '1 1 00 .14741 new Imad -ties GWO 110) Find ~ .W.S A. and - ' - ~x IA.), both appsiaring At .56-.14" unit 61 under 4(; and 7( ' -00 *0 of tile [Al(cr scrics Into. ptmwrc, wir found, The wigin 0e 1 die cannot be rxpLained cAsily. F. JbIrrawicl. Z . 00 go ;.*o 00 0 0 4 1 19 so 1r 6 ~ 0 0 2 &4* 0 . ' go --Of go ; 00 t ~% : . I a S L IL JW1Attt;WGK.I tlftff0U#C CtASPOICAIMN Lo 0 00 8; 4400 00 too I$ AV go 11 0 IF pr 0 0 0 0 0 ele 0 00 * * o o 0 0:* 0 An A t Al v it IF to 61 14 1 11 It 1 11 0 0 0 0 0 0 0 0 4 0 0 0 0 so 0 Of 0 0 0 0 0 J o 0 a o * 0 o 0 0 0 0 0 0 0 0 o 4 0 * 0 4 o 0-0 0-0 0 0 6 0 0 0 0 0  WOLINSKI, Jerzy; BUZAp Daniela; CZENINSKA-FEJOIN9 Eugenia; ZAMLYNSKI, Waclaw A new method of determining amines and phenols. Chen anal 4 no.5/6: 989-993 1,59. (MU 9:9) 1. Katedria. Chemii Orfanicznej Politechniki, Warszawa (Amines) Phenols)  -MUMMY, K. L. Final polishing of cylinders. Moskvap Sellkhozgiz, 1948. 35 P.  ZAMLYARSKIY, H.I.; WRGUN, G.Ye. Use of acenaphthene in the preparation of azo dves. Part 1. Rauk. zap. Llviv. un. 13:113-116 149. (MIRA 12:10) l.KAfedra organicheskoy khimij Llvovskogo gosudarstvannogo univerelteta imeni I. Tranko. (Acenaphthene) (Aso dyes)  ZAMNIUS. F., inzh. Using molling sand in mking asphalt concretes and mortars. Stroi. mt. 4 no.8:26-27 Ag 058. NM 11:9) (Sand, Foundrr)  AUTHOR, Za=,,J.us, F.K. 32-3-24/52 TITLE: A Method for the Investigation of Sand for Asphalt Concretes (Yetod issleaovaniya peskov dlya asfall tovykh betonov) PERIODICAL: ZFtvoelskaya Laboratoriya, 1958, Vol. 21~, Nr 3, PP- 3-16-316 (USSR) ABSTRACT: The character and the intensity of the interaction between mineral- and organic components must be considered the main factor in the deteimination of the properties of asphalt systems. It is for this reason that not only the mechanical properties of sand shall be investigated as has hitherto been the case. A method of investiga- tion waa worked out by meau-3 of which the so-called "bit-wmen volume of saxid" is determined. 10 g of bitumen is poured into a certain Tuantity of the sand to be investigated at 1650C. After cooling 3o= the bitiimen is care-fully removed from the sand, after which the quantity of sand absorbed by the bitumen is determined accord- ing to the difference in weight measured. A final in7estigation of the sand may be carried out by pressing out the bitumen cast at 16500 at a pressure of 3000 kg 6r,2. The pressed-out sample is Card -1/2 weighed and the vol-We of the bit-amen is determined. The method  A Method for the ID7estigation of Sand for Asphalt Concretes 32-3-2.4/52 mp,ntioned makes it possible, besides detemining the aotivity of the sand, to detennine also the orientation of the required quantity of bibxnen. There are 5 references, 1~ of ivhioh are Sla.-iic. ASSOCIATICK- Khar' kov Polytechnic Institute imeni V.I. Lenin (Kharl kovskiy politlakhnicheskiy institut im. V.I.Lenina) AVAILABLE: Library of Congress Card 2/2 1. Send-4lechanical properties 2. Bitumen-Sand-Absorption  ZONIUS F K insh, Using sand in making asphalt concrete mixes. Trud7 MADI no-231 U67in 58. (MIRA 12-'D (SavA) (Asphalt concrete)  ZAIMMS, F.I. Some problems In determining properties of sands for asphalt systems used in construction. Trudy KhP1 31 no-L125-131 159. (MIRA 13:10) (Sand) (Asphalt concrete)  7AMNIUS . F.K. - Waya of reducing the building canto of IndustrUl enter;rioeo. Trudy IWI 22 no.2.-229-137 159. (MIM 150) (ConStruotion industry-Costs)  r? ov ins -L it of H- r.-in.! crz of tlim T-r; -or! A S~ Kirov  ZAKNIUS, F.K. Method for Investigating sands for use in asphalt concrete. Zav. lab. 24 no.3:316 158. (MM 11:3) I.Kharikovski.v politek-hnicheskiy institut im. V.I. Lenina. (Asphalt concrete) (Sand)  LWIUSp F.K.j TINITSM9 PA,j otv* sa vMok (Use of plastics in industrial and civil construction; lecture plan] PrJtenenie plastmass v proEyahlemom i grazhdanskom stroitellstve; konspekt lektsii. KharIkovp H-vo vysshego i srednego spetsiallnogo obrazovaniia USSR, 1960. 22 Pe (MIRA 34:7) (plastics) (Wilding materials)  ZAMMYS. P.K.. in!ah.-, POCHAPSKIT, N.F. Mineral powder from the wastes of sodium carbonate production plant" hirt.dor. 22 no.7:8 JI 159, 04rRA 12:9) 4sphalt concrete) (Soda Induntry-By-products)    I ZAM =O, R. I F ', ti ~C I -r. Ing. R. Zwinojlo, "Dps tmi seLrip be- -,o-c!- er-:-, - " j - von Znerj! etecknile (73erlin), 6/9, 3ertea-ber 1956j, p. i.U -I-'. u Translatel from an article w~dch in Przeglal NecharliczIly, 11~/12, 1955, pp. 375-9.  ACM4ATGWICZY Osman; ZAMOJSKI, Aleksander On the adclition of dietbyl mesoxaUte to dienes, FormatIon of d1bydro- pyran derivatives. Rocz.chemli 35 zo.5:1251-1262 161. 1. Departm3nt of Organic Chemistry, University, Warsaw and Departmant of Oxwanic Synthesis, Polish AcaderT of Sciences, Warsaw.  lucniur.- incl Alc:ksarcii-r Zanojski : "'he '-.1:c licti-on a-.' 'Umiec- on 1-n,3~7-.turato-l- R,'ezac!Aw-,s idth or i Ro=--Ili 10,za"Ai 701 j 10". fro;. +bc. Ciuiir of  PITE"/Organic Chemistry - General and Theoretical Topiee,of G-1 Organic Chemistry@ Abs Jbur : Ref Zhur - Khimiya., iio 14., 1958., 466op- Author : 0. Achmatowicz, A. Zamojeki Inst : Academy of Sciences of Polands Title : The Memietry of Carbonyl Cyanide. IV. Dienophilic Proporties of CarVonyl Cyanido and Diethyl Meaoxolato, Fornzition of Dibydropyran Derivatives. Orir, Pub Dullo Acad,, polono Goi-,) 1957o c1),3, 51 No 9) 927- 929 Abstract CO(CIO condenses rapidly at about 20o with the dieno- ph:U.13 ~-utadieno (1) and 2,3-ftmethYlbutadiene (11) cor- respondingly producinL; 6,.6.dicym-5.,6-dihydro-i:2-pyran yield 75%, melting poini 160, boiling point 69 to 800/ 2 'ma) and 3.,4-dimethyl-6,6-dicYan-5,6-dihydro-1:2-pyran ~ Card 1/2  Ll 1014 I ~l - Z. X vr IMIC., I give 0 fill, tc. r2  AMIATOWICZ, Osmi; ZAMOJSKIO Alexander Chemistz7 of carbort7l Mnide. IX, The action of c7anide or, batadiene and 2,3-dirieVqlbutadiene. Synthesis of dihydropiran derivatives. Rocz chemii 35 rio.4.'799-812 16.1. 1. Department of Organic Chemistry, Warsaw and Department of Organic Synthesis, Polish Academy of Sciences, Warsaw.  L 41814-66 j jy,, AP603160 (N) SOURCE Congo PO/0099/66/040/003/o451/o462 CC Na' A 0 AUTHORs Z4~pojekio, Aleksander AUTHCIR i F of Org`a_ndc-Chemistx7 Katedra, Chemii Organicznej ORGt Dapartment University, Wars Uniwersit-etu) TITLE: Synthesis of 2,4,13-trimethylundecanetri-lt5o9-olt a degradation product of narbomycin SOURCE: Roczniki chemiiarmales societatis chimicas polonorun, ve 40, noe 3# lybov 451-462 TOPIC TAGS: chemical synthesis,, antibiotic ABSTRACT: A synthesis of 2,,4,,8-trimethyl-undecanetri-l,,5,9-01 was achieved. The synthetic product was proved to be identical with ~hw trialcohol C H3Q, a T~4 t degradation production of the macrolide anti narbomycin. e liut or thanks Professor, Doctor 0. Achmatowicz and Professor, Doctor-J.-Swideraki for interest 'in the results of this work,, also Professorl.Doctor V. Prelog-and Doctor'H. Gerlach c (ETH). Zurich, for gettic -of tri from the Federal Polytechni S-the preparation alcohol" VIII,for comparative research,, Orig. arto has: 5 fiju-ies and 9 fomulag. on f - abst-1 1JFRS: ;rhor a Eng .36p0021 CODE3 07,, 06 SUBK DATE: 20Sep65 / ORIG REF: 001 / OrH REF: 010 af  ZAM.TMa, B. People of acience and tecbnologyo RollbW tecbniques are the~x special fiold. Przegl techn m.31i/+- 3 A ,g 160.  ZAMDJSKI,, B. .1 Technological progress helps to economize foreign exchange values. Pr2;egl techn no.33:4 17 Ag 160.  -ZAXWS- KI, Br. - The automatic production iiney an achievement of the engineers .)d Works in Cracow. Przegl techn ne.16:9 Ap 162. of the Telp  ZAMOJSKI, Br. The heavy industry Is fulfilling its production tasks in compliance with the plan. *zagl techn no.13tl,9 Ap 162.  -,---,ZAIIOJSKI Br. "An ontline of the history of mining in the Polish Territorieso vr)1.2., edited by j.,ut Pazdur. Reviewed by Dr. Zamojaki. Przegl techn no.22;9 Je 162  Zg!OJSKI, B. 0~- Rationalization and Inventivenoss$ a basis of output corcentratlon in coal mining. Przegl techn. no. 28:8 15 Jl 162.  ZAHOJSKI., Rr*nls:Law, Expositiono of Polish heavy industx7 at the Internatioml Poznan Fair. Przegl to'chn no.2312J,:1, 17 -Te 162.  7AMDJSKI, BronialLaw Textbookei on tachrology and other tachnologic&l brana~ litarature for technical schools published in millions of copies* I~rzagl tachn noMt 4 AP t62,  ZAMMKILBronislaw, , Har, this hoen worth while? An interview with Kazinierz Glowacz, chief executive in heavy industry. Przegl techm no.18:8 6 my 162.  The Labin and Glow region and the Legnica Matallurgical. Works constitute 'the Polish topper Basin. Przegl techn no.21t4-~5 27 my 62. 3  ZAMOJSKI, Bronialaw With GustAtw Morcinek in Skoczov. Przegl tochn no,10:6 162,  ZAMOJSKI, J. *An Exemplary Method of the Exploitation of the 9-153, a Loading Yacbine in the Michal Coal Mine" p. 166 (aamoMosgi Go=Icjgf Vol- 41 No. 6, June, 1953v Katowice) SOt NMIWJ LLIII st 1=1 Emovean Accesgiong , Vol. 39 No. 2, Library of Congress, FObruar.v,, 1954, Unal.  NOWAK, lazimierzs inz. PUTEMICKI, Przemyslaw, r6gr inz.,- MIOJ.1370, Jozef gr inz. Pmvm* do in the construction of commutators. Wiad elaktrotechn 31-no-3;13-38 Mr 163.  YUMMIM/Organic Chemistry. Cu-neral and Theoretical Problems G of Organic Chomistry, Abs Jour: Ref Zhur-Miri., No 23, 1958, 77489. Author Achmatowicz 0., .7,h~m~ Inst Title The Chemistry of Carbonyl Cyanide. Dienophilic Proparties of Carbonyl Cyanide and Diethy! Mesaxalate. Formation of Dihydropyran Derivatives. Orig Pub: Crowt. chem. acta) 1957Y 29) No 3-4, 269-275. Abstract: See IiZhKhim, 1958, 46602. Card 1/1 101  WITRIMalY, V.P.; ZAMOLODCHIKOV~...P.I.; KOLIGA, V.V. [Cyclotron with a periodic magnetic field for multip",,q charged ions] TSiklotron a periodicheakim magnituym polem dlia mnogozariadrVkh ionov. Moskva.. Glav. ixpr. pa ispollzovaniiu atomnoi energii, 1960. 14 p. (MM 17-2)  VA 2 It 0: rp ii A 01 31;".5  S/058/6 I/OOO/DO7/DO6A86 A0OJ/A1Gl J243,300 AUTHORS: Drnitriyevskiy, V.P., Zamolodchikov, B.I., Ko ga, V.V. TITIE: 7he cyclotron with a periodical magnetic field for multicharged ions PERIMICAL: nereral-,ivnyy zhurnal. Fizika, no. 7, 1961, 37, abstraot.7B32 (V ab. "Uskoriteli", Moscow, Atomizdat, 196o, 94 _ io4) T=: A cyclotron is proposed with a periodical magnetic field w9th a purpose to produce boams of multicharged ions with a pulse of up to WO oe.cm and intensity of-sevoral tens of microamper6s. General.,relations are derived and necessary voltages are calculated for accelerating ions with a presoribed-range of charge-to-mass ratio. The vertical f6cusing is effected by the variable gra- dient of the magnetic field whose maximi are located on spiral lines; An appen- dix contains the sketchy calculation of an installation with the following charac- teristics: field in the accelerator center, 16,000 oersted; the final radius of ion motion, 1_30 cm; the range of charge-to-mass ratios, 113 to 1/7. [Abstracter's note: Complete translation] A. Talyzin Card 1/1  ALITHOH6% Aitrirevskiy, Zamolod,,-hikov.. TITLEi Boam LDss at the Limitang Radius PERIODICAL: Atomnaya energiya, 19,40, V0.1- 9, 4229 S/089/66/ooq/ooVoc9/c% Boo6/BO7,0 B. V. in a-Proton Synchrotron No., 4. PP~ 405 - 305 TEXTt In the present "Letter to the Editor", the author.-3 da.-scuss the re5onan-.e interaction between the radial and vertical oacillations near n ~- 0,215~ This resonance is much more harmful than the pararaetri,!. - exoitation of vert-ical oscillations cauaed by the first hariconi". in the 9trill-ture of the magnetic field. The limiting energy to whic~h partioles in a high-enezgy proton synchrotron may be a--celerated :;orre5ponds +o a radius for which the coefficient n . -(r/H)(dH/dr), characteriziAg tha de~zrease of the magnetic field, is in the range 0.25> 00.2~ Coupled oscillations do not lead to a total beam loss in the range n-0.2. This range is followed immediately by the range of parametvri~- encitation of ,.,rtiaal oscillations of frequency QZ-0.5 (n-O,?5),, This parametrin. ex- cita*lon cannot cause any significant increauic of th,? amplitude in a real Card t/3  8~229- Beam Loss at the Lim:tting Radius in a Proton S/089/6o/oo9/cO4/009/0?0 Synrhr-=.on B006/BO70 proton aynchrotron. The effects which cause an Increase of the amplitule of vertical oscillations in the presence of an azimut~al Inhomogeneity of the magnetic field are now investigatpd, Coupled os~~iliations orig-~nating from a distortimDn of the closed orbits cauzed by an azimuthal inhomagc~- neity of,the field structure are i.,onsidared. Formulao are d~iri'T-71d, WhIC.11, give the increase in 'the amplitude in the resonanc--:a zone for quasisl,~,Ai.. 6) and dynamic (7) cases, The theoretical resulth were tierifi,-~4 hym~E-ans ,-~f an elertronic simulator of the 1.yp%?MY--8 (EML-O)~ Thia instrument intagrated equation (2) describing the vertical oscillations. For this purpose, the equations were put in the form of a eystem of two equatior'S (9); and the initial phase T 0 ias. so chosen that th4~ maximum increaae of the ampl-~tude of the verti,7,al oscillations oocur.red 4urIng the passage throvigh the resonance at n 0 - 0.25,. The waximum ainpli~lzde of th~) os.-.illation could be obeerved -n the indicator acreen, an-4 was from the voltage at the output of the integrators The ascuraoy of the solution was 1%, The syetem of equations (9) was solved for two special ,.~asea~ the pr-.~Ion eynchrotron of Ot"yedinennyy j-,1stitili yaderiqkh. (Joint Ini3titnta of Nu-clear Regoaroh) in Dulbn't, ana Thai Or car-1 2/7~ r ,  6422Y Beam Lose at the Liml,ting HiAniwa in a Proton S/06 60/009/004/009/020 Synchrotron Boo6YBO70 the Institute of Nuclear Research in Tokyn, igs. 1 and 2 show the dependence of the maximum amplitude on the magnitude of the first harmonic of the magnetic field for kinetic ion energies of 680 Mov (Dubna) and 57 Mev (Tokyo). The calculated curves were obtained from equation's (6) and (7). Fias. 3 and 4 show photographs of the oscillograma which show the build-up of vertical oscillations on the dynamical paiisage through the resonance considered (E k-57 Mev). The authors thank V,__P. Dzhelepov for discussions~ There are 4 figures and 3 referencess I Soviet and 2 US~ V), SUBMITTEDt March 28, 1960 Card 3/3  ZAMOLODCHIKOV, 11. 1. Cand Phys-Math Sici - (diss) "Several factors bounding the energy and intensity of' beam in the phasotron and the relativistic cyclo- tron. Paper del'ended in work for the academic degree of candidate in phys-math sci as based on sum total of work undertaken." Z7Dubna, 196~17- 32 pp with diagrams; (Joint Inst of Nuclear Studies, Laboratory of High Energies); 160 copies; price not Iven; biblio- graphy on pp 22-24 (35 entries); (KL, 10-61 sup, 204.5  VASIL'YEVSKAYA, D.P.; GIAZOV, A.A.; DENISOV, Yu.N.; DZIIELLPOV, V.P.; WITRITEVSKIY) V.P.k ZAI-IOIDDCHIKOV B.I.- ZAPLATIN, N.L.; KOLIGA, V.V.; KROPIN, At. ONISHCHENKO, L N.; RYBALKO, V.S.; SARKISIAN, L.A.; SHVABE, Ye.; SARM4TSLrVA,, V.R., tekhn. red. (Theory and. the modeling of a circular synchro-cyclotron with a spiral magnetic field] Voprosy teorii i modelirovaniia koll- tsevogo fatotrona so spirallnoi strukturnoi magnitnago polia. Dulonap Ob"edinenryi. in-t iaderrqkh issl., 1962. 7 p. (14IRA 15-4) (Synchrotron)  GLAZOVI A.A.; DZHELEFOV, V.P.; DMTRIYEVSKlYp V.P.; 9AMIDMIKOV, II.I.; KOLIGA9 VS.; KFOPINv A.A.; ONISHCHEMKO, L. SHVABE,, Ye. Effect of a space charge on the frequency of free oscillations of particles in an Isochronous cyclotron. Atom. energ. 15 nojs205-209 S 963. (MRA 16t10) (CYclotron) (oscillations)  DANILOV; V.I.; YENCHEVICH, I.B.; ZAMLODCRIKOV, B.I.; MARCHENKOI~ B.N.; MOVIK07, D.L.; POLFEROV, E.A.; IROZANOV, Ye.I.; SAVEW07, A.L.; SAFOITOV, A.N. Increase in intensity of a proton beam in a six-meter synchro-cyclotron of the United Institute of Nuclear Research. Atom. anerg. 16 no.1:9-11 Ja 164. (MIRA 17t2)  L M7-66 rm AdCESSION NR., AF5023773 U11/0089/65/0191003/0280/0292 621.394.611 AUTHORi Danflov, V, L; Yeachavich I H Zam, 195[ch!k L; Polferov, _E Rozinovo Ye. inivn6v, T. 1. 1 Wstov, V. CT-. TITLE- The Increase In pulse duration of the 680 MEV..01Ya1` syneltrwyclotron particle beam SOURCE- Atomnaya merglya, v. 19, tio. 3 1965, 239-292 -TOPIC TAGS: synchrocyclotron, ton c ton accelerator,. MEV accelerator.-, ac olerationo ABSTRACT-. In synchrocyclotrons ions are accelerated In buncheso W,, shape and dimen sions of which are determined by radial-pbase and b6tatron. oscillati6m. The present authors elescribe a mothod for pulse extension which was tested onthe D1YaI syncbrocyclo-! tron and yleldcd- rasul~ts summarized in Fig.. I of the-Enclosure. The method to based on the analysis of the a0proxdmate expressions for pulse duration, "-arr. (1) + i.. X (9) Card 1A   'o -- -- -- - - - - - - - L 4147-66 -ACCESSION Nit: kl'9)23773 and gnd j _15 tho,' maximum- amplitude-of -radial ~betatrort radfal~phase oscillatfona respectively, It Is shown that the lougth of the pulse. mTy-be- oxtmdedly Incr ming the iaeTval-of-radiaLoseiU,,tLUen-,,unplituderand-b~v r s_1thfs_-_can:be_-ach oved-by-incre tnX.- -f as radial tons or-~. Ala  L 4147-66 ACCESSION NA: AP5023773- 01 ENCLOSURE. cbunts' 0 I P 14 $47 0 , 41 h 'D A 77 Fiore L Shape bf OlY9 synchrooyclatrou beam pullsesi~ 1.~ stoAdoxd oporation; 21.s (M- tended beam Asb op6rjm Lu Pard 4/4  IL 227h-66 ~pi)/gPjk (w)-?/7 ljp (c CZ9 _MMISIM Nk,. AT50071143 'UR/0006/54/000/60D/0611/0615 'AUTHOR: Glazov, A. A.; DzheleDov, V. P.; Dautriyevskly, V. P.; zmftolodchikov, D. 57-e--- Kol'ga, V. V.;.krapin Yu. :TITLE. Effect of-space charge on tide free oscillation frequency of particles in an isochronous cyclotron ;SOURCE: International Conference on High Energy Accelerators~f Duhna, 1963. .Trudy. Moscowj toml 'TOPIC TAGS: high enerlrj accelerator, space charge, cyclotron ;ABSTRACT: Theoretical studies of the effect of space charge on the motion of par- tticles in accelerators have been 'carried out in a number of works: Berestetskiy, V. V.; Golldin, L. L.; Koshkarev, D. T. Pribory i tekhnika dkeperimenta, 3, 26 1(1956); Dmitriyevskiy, V. P.;.Zamolodchikov, B. I.; Kollga, V. V, Doklad nolonfa- _xentaii po taiklotrotumi (Report on the Cyclotron Conference), Cracow* 19GO; Kolo- A. A.; Lebedev, A. 1;. Atormaya e1wrgiya, 7, 549 (1959). To.creat F e strong- Icurivnt accelerators it Is important to -verify the theoretical conclusions with ac-1 tual operating Installations. The present work Is concerned with thadependencG-of!__ I - - ___ - ch-- !the frenuenc oEg upon,the-d Y_ jal-oscillations- ensity-of the space iarge of the ac- 9 bcard-v  __L 227h-66 ACCESSION MR: ATS007943 elerated particles. Pertinent measurements were carried out on alcyclotron with c spiral magnetic field.for the specific case of molecular hydrogen ions accelerated up to the energy of 12 Hev (Vasilevskaya, D, P., et. 41., Atamiaya energi y~a .89 189 (1960)). The results of the present work shows that the effect of the space charge-does not prevent beam intensities of the order of several-MLIliamperes in re lativistic cyclotrons.: A result of this space charge is the dispIlicement of the zones of resonant interaction of the oscillations*. ExpressiQns am' obtained which describe the effect of the space charge on the basis of ll:hear.equistions for the free oscillations taking account of the electromagnetic field of the accelerated particles. - It - is assumed. that -the particles- Ina, condensed bunch %re uniformly distributed along-the azimuth and that the vertical size of the buach Is much smalls_____ er than the aziituthal'extension. The main topics discussed am: (1) the density o the charged particles'in a relativistic cyclotron and its influenci upon the fre- quency of the axial oscillations; (2),measurement of the azimuthal extension of the bunch;- (3) measurem6nt of -the fktequency.-of the axial free _ascUlations;_ and (4) the limiting intensity of:the internal beam in a relativistic cyciotroils Orige Uto has: 6 figures, 9 foxculas. ASSOCIATION: Ob"yeditiennyy institutyadernykh issledova~iy#".'Dubna (Joint Institute I of Nuclear Research) EFCLt- 00 -CODE:--N? SUB NO REF SM 004 OTHER:, 002  loom DZIIHELEFOV, V.P., r)t,dTRIYrVSFIY, V. P. ZAEOLCECIUKOV, B.I.; KOL GA, V.V. High-pcwer accelerators of high-energy particles, so-called '=as factories." Usp. fiz. nauk 85 no.4,~,6,1'-678 AP !65. (1,11FRA 18-), ,,.L  eOURCE- - International ODnfemnee on High EneM Accelerators. Dubna, 1963. Trudy~ JVoscow, Atomitdat,-1964, 547-555 icle AWIC TAGS: proton-acceleratorl relativistic part -==Iusively-show -th -ABSTRA.Cr--- - turiiit-I t _nT a~~.I -to Understand the 'microcosm further -it Is necessary, to increasa the- beara f RC -0 e calerators by a factor of 104 and produce accelerators with energies up to th:,usands of Rev's. For the past 5-6 years constant gradient accelerators (500_ 900 Kett cyclotrons) havf appeared to be the best wtay to produce parlicles with ener- gie5 up to I Be~; (1 Ge-r, with beam cux-rGnts of the order of 1 milliempere instead of ! micrcarrp,~re (as foind in synchrocyclorrons). The present mpoxt describes the desip fcr a 700-Mev p:- -t on cyclotron de"ioped by the Laboratory of Nuclear Prob-  L 58913-65 A r' 1-j" S?N N P A r I 1~ T Y j T i n !v with P- I E FA AE S S S Rand other scie-tif ic: rl-Osearch v T f-- Pew ;I, - ce 1~~ The foil-.wing new T n omr, v x ~:(,Ljs zr a rl' en t s '1P D 140(jul -"Q/ ~m) W~!.f: 'j:- dccuracy '11~llter "har, lu, r ~d 1 Ic - C)f high-4r,~-.uanc-' )scill'at-.)r-,3 vi-h p-ower up to 2 MW at a fmqu(!Ilcy of 12 ffrega- rv(-IeFi per !?ar:,:)nd (12 M,:), with f-ri-quency stability of the order of 10-', whL-11-1 Cr,rd 2/3   o r t,, L ol~ accelerdt,3d proto0s. ~lh-.- pr"U-ut, ;,T,~;  4 _j 1; 58861-65 -2 ACMSkOll RR At5007946I`T* J, daptum. -.of~the -part icles'-a V the -ce:ntex-of :the ~syv~ __h__ ldt",F-Auringtthe 4 c-celeratin-g- regime'; ---and - se con t~,6ii-oaso~-Motlon- during rocyc V -equa s: ox Bohm -and-- the 'Acceleration process, up to the term al rad th~ D f i -ust L. Foldy (Phys. mV. , 72, 6119 (1947)) are insufficient for the solut- [on of the prob4 flem of the optimum capture of charged particles in the accelerating r-egime in syn- chrocyclotrons of several hundred Hev. This is explained by the fact that the 'growth in energy per reNolution in the first stage for a constant accelerating po- ,tential (Ijeconst,) depcnds upon the radius of the orbit. The curve describing the. 'relative ~_mcwth of protcn energy per revolution as a function of radius was caicu- 'lated by means of pictuies of the dee potential field which were obtained from, a Imodal of the7 central regrion of the., Mal syrchrocyclotron in an electrolytic tank. LXVe-Imental -,Pasure-men- s of the curne~~t F_~- -_'ie radiu-; R--30 cm det-er-mined the mag- y- ,r-- c' he (-ircuiar f-requency in units of radlans per secon,~2) r :t~,.3t E-naures Optitrum ca!)ture conditiorl&. C;`,Oice of this radius nec~6,sitatez 'fie inf'Lut~llce of ing t I - ~) tc-,- Conditions lurling protf)n -icrqIe_ratiCjn of thp iriiidie and t Br-T. i i n. a I radii. Th,? mgnitude of v a r ied ii init 0.~,er Wil-le rarEe "fith lariation of the magnetic field strength at :he centor of 3 Fcr v)itage at the cdme o4'~ Y 12 kilovolts aril f I . or, existirg geom- -C -25  4 ACCE OK-KRI.-~--._-AT.W94 D- .7 ~f the -celeratinF, gape. the.dependence of the - intensity-. (captare effectivenesO upon W for the OlYal synchr-ocyclotron showed the optimun value to be m5K init !1010 rad/sec2 (B.I. Zamclodchikov,, et al. Preprint GIYaI P-720, Dubna, 1961). lCorrection of the parameters of the accelerator's resonance system in January 1961 le~ a fterqli~?~i,-_y progTam writh the ind-1--ated vaille of at the beginning of s in ',acceleration, which led in turn to increasing the internal beam frorr 0.3 to 0.8 on cui:,rent -was measured by .jkroamneres at theAeruLthal radius Ff--274.5-cm. Them prot Tmeans of --s-v Induced activity of an aluminum target, according to the reaction A127 '(p,3pnYqa24, obtained al radii R--270 to 280 crn. A target with a lead backing was 1calibrat-Pri against a nim of Protons, extracted from the synchrocyclotron chamber, hy rf,.nans of a Faraday nlinder~ '!'he sccond 3tage of the word ~_-onsl5tted in cm~ating t FrDr. w" t) and s,lc~ Ithat they enslar,? simulticneously the optimum coriditions for the capttre or rne j.-_,n_- iand their subsequent act;ejeration up, to the terminal. radiw without phase loss. Puring selectioTt of the frequency prograr, of the synchrocyclotron c(nsideration was n of the-dampilag of phase oscillations during the process of prcton acceleration take. ta- the: termit-nal:radi,is of the UP accelerator. Use _was.made of the Jnvariance of the' lintegral of action J dix,ing the adiabatic variations of the system1f; parameters. Car    r-t-7/Pab-10 IJ L 5W10-65 =9101SION ITR - AP50LI2 ~2' U* 31651085, foa4/o65 1106~ffl AUNOR: Dtbolepqyj V - P. DmitlrTevsMy, P.I MIM Strong current Ugh energy paxtiSle accelarato a-.;. mevon ft~:torie r s A SOMM UspekU fixiebaskikb nwjkp v. 85, no. 4, 1965, 651-6,18 TOPIC V.09t 1)~icle accelerator, ayelotron,, high current acaeler3tor, particle extraction, acceleratox shielding: AKITAM, The =~ticle deelli3 with hig7b-cncTgy par-ticle mci;:eleratorF in which th-i pezticle3 are acceleral 'ad to approxizatell I GeV end which produce Pufficicinly In.rge c-t=rzent, up to 1 mA (meson factoTles'). Such accelerators art! capable of" prc- dw-irx- rmeleon, pion, imnd =-on virrente ~AUch are hundreds and thcusands of tireF, I rc-,,-r-r thnm. ex L Ert i ng, e1 I-uipneut c;in au-ppiy The !Lrt I cle dil nc-uz ses b- proar--,  loom I ASSOCT1,TION't i RR RU Myt llone Mtn I -MID- CORI- HP 00 017 oTMt 0 9 Ccrd P/2  lirig/321VA34)/JWP(t)/BWP(3s)/ZWP(i) JD. UvO1M/65/060/0Dk/0382/6lff' 62.L.318.3;6Z-30-634 so AMOR-1 Akhmsnarj:.~j 4arkov. L. N.; NlkollsklY..A. &.1 30 Khakimpy, S. Kh Babovikov, H. S.; Dkobreteow -; Sitestakov. V. D.- TITLE: An arrangeomt. for producing pulsed negastic fields of strengths UP 1-0 150 kilogauss SOUBCZ: Pribory I tekhniks eksperiments, no. 4; 1965, 182-18T TOPIC TAGS: pulsed magnetic field. thyratron, wynchrocyclatron ABSMCT-. 'The units of an sp~arstus for producing a pulsed siagnetic fit of - are described. Pulsed stagneta of beryl- 146 kilogau3s in a space of about,600 CM3 if. lium bronzelare potrered by.a`cap&ditor bank of 0.1 farad capacitince. The capacitors are chargedk%,broiWt lizdt resistances to 2 kv from a thymUou rectifier, and a 1-10015 ignitron III used asIthe svitching element, Synchronization and conirol for operation vith a iqmchrocyrletron are obtained by a special circuit. This arrange. ment, 6r obtaining the pulsed field operates reliably. In the tests two se~pars" kagnets were used$ each producing a field of 2h6 kilogauss. The use of the 1-100/5 Cwd f  J, 2535--66 ACCESSION NR: AP5021-359 IgniLron when proper heating and cooling were maintained prior to switching fik the field secured operatton without breakdown for 20-40 hr at a switching re .Lte ot 10/min. The joint operation of the.pulsed magnet with the gynchrocyclotron required some rearrangement o:,1 the control system to guaLrante;hthat no.particle was emitted a without accompanimen', of a pulsed magnetic field. " a authors express their thank to V. I. _Rantlov, S. M. Tomilina and 1. B. Yanchevich for carrying an the voLrk. The authors are grittful to 1. 1. Gurevich 'and V. helepov for their constant interest fLr,d help in the work. The authors express their Uanks to T. 1. ffaimov&-L F. Te. Gaqs, 1. P. Larrushkin, Yu. V. Maksimov, A. V. bhestay, To I vanov, I --_Ygkrkk av, A. F. Hurt-selr,B. V. Degtyarev, H. P. -1: D, 0 qho t;tklsryaKov, Ana No area v for their ~~i In' main-tain-Mg &n-d7;FrRf-rQg-the equipmant.7 'Orig. art71-U-SMIgures and 1 table. 104) ASSOCIATION, Institut atemnoy anargii GW, Hoscow (Initituto. of Atodid thel-gy GM I LY&P OIYRTL i All ZFAj HIn SUBMMTD: IjJun6k ENCLI 00 CODSIC9P P0 R" 80vt 001 QMt 003 AiD MW,ji.ff Cc-9-2/2  DANILOV, V.I.; YENGHEVICH, I.B.; ZAMLONHIKOV3,,,4j.; POLFEROV, E.A.; ROZAITOV, Ye.I.; SMIRNOV, V.I.; MT&, V.d'o Increasing: the pulse duration of particle beams from a 680 Mev. OIIAI synchrocyclotron. Atom. energ. 19 no.3:289-292 S 165. (MIRA 18:9)  GARAGULYA,, L. S.; ZAKOLOTCHIKOVA, S. A. Seasonal freezing of soils in the SYktY7kar region and the preftetion of soil freezing chan&s following development of the territor7, Merzl, isel, no.l*-45-59 161, (MIn 16 t 1) *ktyvkar region-Frozen ground)  ACC-WKi--A-T6024q28 SOURCE Cobk'- _W2�81 --/661000/004/0187/0191 AUTHORS loktionova, N. A.; Ovehinnikovt Yu. F.; flikonorovg Ye, A.; Zamolodchikovap V. N.; lapinap L. V.; Kr-evozahikov; A. V. ~Ao~v V.-J. OR G I none L~'Q_ 6 fl TITLE: Residual stressois in weld joints of aluminum alloys SOURCES Alyuminiyevyye splavy, no. 4, 1966. ZharoproohnM i vvxokoprochnyye splavy (Beat resistant and high-strongth alloys)p 187-191 TOPIC TAGS$ tensile stress, compressive stresup aluminum alloy property, weld e ation I Ir ABSTRACT: The residual stresses in various parts of a welded structure of ATsM alloy were detekined by a mechanical methodp and the influence of the artificial aging and temper 1)6f the weld joints on the magnitude of these stresses was investigated. It was found that longitudinal residual stresses up to 10-11 kg/=2 and compressive re- sidual stresses up to i1-12 kg/mm2 in the transverse direction arise in the zone of the weld joints. Artificial aging of the weld joints of ATsM alloy for too hr at 90'P does not change the magnitude and character of the residual stresses in the heat-af- fected zone as compared -to the r dual stresses in the naturally aged state. Temper- ing of the zone of the w3ld joinv% induction heating to 240-2500C for 4-5 min fol- lowed by cooling of the heat-affected zone with water increases the magnitude of the. Card  L 46965-66 A-CC NRa AT6024928 longitudinal tensile reipidual stresses by 1.5-2 kg/mm2, without clumging the sun* At the same tim, the transverse reoidual atresoes change into compressive ones and reach 4 kg/mm2. Orig, m-t. has$ 2 formaas. SUB COM 11/ SUBK WEI none/ ORIG RUs 003 Card 2/2 mt  ZAMOIDTOV A, From tha Irsaves of corn, From, koop, uo,12:35 D 157, (KM lotiz) It Predsedittall pravlonlya artell 'Kraouyy kubauets," otantelya Dinskays, Krasnodarekogo kraya. '(Dinabqa (Krasnodar Territory)-Basketwork)