SCIENTIFIC ABSTRACT KOSHUNOV, M - .KOSIBA, A.

KOSHUNOV y' K. - ~ , . .-, Biology of Alhagi persarum Boiss. et Buhse of the lake sands along the Kara Kum Canal, D4.AN Turk.SSR.Ser.biol.nauk no.4:75-78 165. (MIRA 18:9) 1. Institut pustyn' AN Turkmenskoy SSR,  SVJYTSOV, J.P.; i,',OSIIUNC)VI MI. Effect of temporary flooding on the aevelopment of tree p'laant-ationB. Izv. AN Turk. SSR. Ser. biol. nauk no.5:70,.-82 163. "E ., THA 17: 10) k 1. Institut pust,,,,-nl AN Turkmenskoy SSR.  ACC N6-AP600280 SOURGJ 0237 0 000 00 003W0636 AUT11ORt Koshurp L. T.; Sintoovhp I. T. ORGt none TITLE: Study of the problem of' stabilization of zirconium dioxide SOURCE: OptiRo-mokhanicheskaya, promyshlonnoatlp no. 21 1960p 32-36 TOPIC TAGS: zirconium dioxide, zirconium compound, refractory compound, refractory product ABSTRACTt Because of its chemical and thermal stability, density, and strength at high temperatures,, zirconium dioxide is of interest in the development of highly re- fractory materials applicable for the malting of glass batches at high temperatures.. The authors established the effect of stabilizing additives, firing temperature, and holding period on the formation of stable solid solutions of ZrO, Two batches of commercial-grade ZrO2 were used as raw material. It was found tilt CaO and MgO could be used as stabilizing additivos to promote transition from the initial, thermally unstable monoolinic ZrO to tho thermally.stable cubic modification, optimum amounts of the additives being 10 and 14 mol.%,-respectively. The degree of stabilization was Card -Acc 44 ~, _AP 660- 2-803 checked by means of chemical phase analysis and x-ray diffraction analysis, as well as visually. It was found that the beat method of stabilizing is by sintering in an 'iectric are furnace at temperatures of not loss than 17000C and preferably above P. PMOC. The pressure:ejnployed in compacting the specimens should not be less than kg/cm~. CODEs 07,J// SUBM DATFs.14JU159/ ORIG MWo 004/ OT~ REN 005 2/2 L 01225-67 EV,P(a)/EViT(m)/EilPi:t)/ETZ/41P(~) P c  ACC. NR, AP6032945 with higher Ce02 content. The 1''203-containing samples also exhibited a satisfactory thermal-shock resistance since tbey displayed firecracks after 11 thernal cycles only. The samples with 8 M01% Y203 and 10% unfircd~ZrO2 broke down after 25 thermal cycles. The LaZ03 addition was-the least efficient stabilizer of Z'r02.. Improved thermal-shock resistance was co:rrelated with the presence of both cubic and monoclinic ZrO2. Positive results were obtained with the stabilized,ZrO. products which were tested in laboratory and pilot-plant at 2000C under a severe temperature gradient. Orig. art. has: 2 figures and 1 table. [JK] SUB CODE: 1l/ SUBM DATE: none/ ORIG REF: 008/ 01111 REF: 002/ ATD PRESS. 5096. I Card AOICESSION NR: AP4015112 S/0136/64/000/002/0070/0075 AUTHORS: Ry*tikov, A. M.; Shevakin, Yu. p.; KoshUrin, A. V. TITLE; Forces on the ram during tube extrusion. SOURCE: Tsvetny-*ye metali.y*, no. 2, 1964, 70-75 TOPIC TAGS: Extrusiont extrusion force, tube extrusion, ramt design,:, upsetting, r1Lm stress, ram compression, ram stretching force ABSTRACT: MeaBurements 'Wore made of forces applied to 15, 26, 45 and 55 mm. diameter rams used in extruding tubes having 2,3,4, and 6 mm. walls from 150 x 200 mm. oopper billets on a 1500 ton horizontal press. On upsetting the billet the forces on the ram increase to a maximum and then decrease as It approaches the die. The upBetting proceeds in two stages charaoterized by reverse flow of the metal which is Progressively rel:arded by frictional forces until the defor mation of the ingot is caused by shearing of the non-upset portion of-' the billet at the bottom. The nature of the change in stresses on Card 1/3  ACCESSION WIR: AP4015112 the ram along the length of the Ingot and the position of the-maximum stress depends on the ratio of the ram and the container diameter. As the diameter of the ram decreases, the position of the maximum stress shifts in the direction of the die. The total of the stresses. ,on the ram, a' , is the sum of the stresses due to the cutting forces, 0,' , and the frictional forces, d*: a,= Z( a,,+ e,), Z being the temp-, erature coefficient accounting for the cooling of the metal (li !of i.o-1.6). The force on, the ram may be expressed by P d /4) .The compression stresses on the ram decrease as its diameter increa- P.88, e.g. increasinE the d1ameter from 15 to 55 mm. reduces stresses ifrom 45 to 25 kg/mm . Resistance to deformation increases on transi-~: tion from upsetting to extrusion,, and the friction-increases until it' is the only force on the ram as the metal flows through the die. Thel .forces on the ram are less with a larger diameter ram and a tube with'~ ,thicker walls. Stretching forces are developed on the ram on remov- Ing it at the end of the extrusion. As a result of these investiga- .tions a new ram has been constructed (Shevakin, Yu Ry*tikov, A.M. Koshurin, A.V., inventor certificate No. 1430OW;o,mprising the 'Combination of a larger removable ram and a smaller oDeratink ram Card 2/3  LOCESSION NR: AP4015112 vhich Is longer than present rams. 'IV. A. Petrov and V. I. Polovin- kina partioipated in conduoting the experlmental work." Orig. art. has: 2 tables, 5 equationio and 3 figures. ASSOCIATION: None SUBMITTED: 0.0 DATZ AOQ,* 12Xar64 ENOL: 00 SUB CODE: MD, 14L IM REP SOV: 006 OTHER: 001 Card 3/3  5,q11'C"I /V 136-8-3/21 AUTH)RS: Strakhov, GON. j, EnFineer#'j~~sh~urin~A.V~.P Efigineer .TITLE: Extrusion of Bars with a Movable Container Bush (Pressovaniye prut111.1ov s podvizhnoy vtulkoykonteynera) PERIODICAL: Tsvetnye Metally, '1957p Nr 8, pp~.16-20 (USSR) ABSTRACT: The authors (photograpits iven) consider two schemes of metal flow during extrusion 51ig ,.1), possible causes of lamination and ways of avoiding them. They comment favourably on reve,rse flow extrusion and suggest that un-;- satisfactory surface qualities obtained in previous invest- igations were due to unavailability of suitable equipment. To overcome this shortage the authors proposed the use of a movable containe:r bush to enable forward action presses to be used for reverse-flow extrusion. Here the ingot is placed in the mova:ble bush whose length is half that of the container (Fig'.2)'. Details of this method are given and its application to different alloys on a 1500 ton horizontal hydraulic press is described, a metal balance for 20-35 mm diameter bars of one alloy extruded from ingots 350 no long and 175 mm in diameter. Various modifications of equipment and procedure have been tried and its use extended to a wider range of alloys. This work and the latest form of the Card 1/? 136-8-3/21 Extrusion of Bars with a Movable Container Bush. equipment is described (Fig'.3) and advantages of the tech- nique are.considered. Puture work is outlined. There are 3 figures. ASSOCIATION: "Krasnyy VYbOrzhets" Works (Zavod "Krasnyy Vyborzhets) AVAILABLE: Library of Congress. Card ?/?  SOV/136-59-4-11/24 AUTHORS: Shevakin, Yu.F., Candidate of Technical Sciences, Rytikov, A.Mo, Sharov, I.Ye., Butomo, D.G., Koshuria. AeV., Sergeyeva, Z.L., Engineers TITLE: Comparison of the Efficiency of Tube Production from Non-Ferrous Metals and their Alloys by Cold-Rolling and by Drawing Methods (Ekortomichaskaya offektivnost' proizvodstva trub iz tavetnykh metallov _J splavov kholodnoy prokettkoy po sravneniyu s volacheniyem) PERIODICAL:Tsvetnyye metally, 1950, Nr 4, PP 57-63 (USSR) ABSTRACT: Opinion was divided on the relative merits of the different methods of tube production, theref.)re the present investigation was carried out. All sizes of tubes were tried by the two methods. It was shown that output from cold-rolling was 10-25% higher than ihat from drawing (table 1). The machine-hours and man-hours for cold-rolling were shorter than for drawing (table 2). Table 3 shows the increase in production by cold-rolling with better equipment. By cold-rolling with modern equipment the machine-hours and man-hours could be cut by Card 1/3 two in the production of copper tube. The economy in  sov/i36-59-4-11/24 Comparison of the Efficiency of Tube Production from Non-Ferrous Metals and their Alloys by Cold-Rolling and by Drawing Methods this case was 224 roubles per ton and in other cases varied from 165 to 374 roubles per ton. The number of operations In the copper tube production was reduced from 27 to 18. The production of condenser tubes in L68 (brass) &I'Loy has been increased from 70-90 to 180-200 m/hr. An advantage of cold-rolling is that deformation can be up to 94% of the initial section. It also allows the manufacture of tubes from L68 without an intermediato temper, giving a tensile strength of 75-77 kg/mm2 arid an elongation of 2.5-3%. For materials which are difficult to deform (e.g. some Ti alloys) cold-rolling is a superior method of tube production as the machinery is cheaper and the number of operations is reduced# At present, work is in hand for a cold-rolling Card 2/3 mill which will produce two or three tubes simultaneously.  SOV/136-59-4-11/24 Comparison of the Efficiency of Tube Production from Non-Ferrous Metals and their Alloys by Cold-Rolling and by Drawing Methods There are 5 tables and 4 referbntes, 3 of whicb. are S3viet and 1 German. ASSOCIATIOM.Institut stali; Zavod ,Krasnyy Vyborzhets,,; Kollchuginskiy z,avod po obrabotke tsvetrLykh metallov i splavov (Steel I:nstitute; "Krasnyy Vyborzhets" Works and Kollchugino Works for Processing of Non-Ferrous Metals and Alloys) Card 3/3  S/136/60/000/02/014/022 E193/E463 AUTHORS: Koshu-' V in c er j Shevakin, Yu.F., Candidate of TechniLal Sciences and Rytikov, A.Ml. . Eng-ineer TITLE~ Mastering tile Technique of Manufacturing Hollow Shapes of AsymmaLrical. Cross.-Section PERIODICAL: Tsvetnyye inetally, 1960, NY, 2, pp 64-,t2 (USSR) ABSTRACTi Aluminium and aluminium alloy tubes of both symmetrical and asymmetrical cross-section are at preFent extensively made by extrusion through bridge dies, This method is not suitable for extruding copper tubes of this type o-oring to much higher extrusion temperal.ure and the tendency of copper to oxidize; +he former affects the stability of the die, the latter causes difficulties in the formation of good quality weld betifeen two streams of the extruded material- it was for this rc-!ason that the method of extruding copper hollow shapes of asymmetrical cross-section through a die with compensating die aperture(s) has been developed, the -present paper reporting the work carried out in this Card 1/9 connection. The shape of the tube, whose fabrication S/136/60/000/G2/014/022 E193/E463 Mastering the Technique of Manufacturing Hollow Shapes of Asymmetrical Cross-Section has been investigated, is shown in Fig 1; tile range of dimensions (in mm) is given in the table in Fig I. It follows froin the theoretical considerations that. if no precautions were taken, i3ection F I of the tube would emerge firom the die at a rate higher -than that of section F11 (see Fig 1), tile., tendency of the metal toemerge at a uniform rate would result in an increase of the area F:[ and displacement of the mandrel towards the aection Fjj. The rate at whicl) the inetal emerges from the die on the side of section Fi call De reduced only by increasing the quantity of metal extruded on this side and this call be attained onlv by tile provIsion Of an additional iompensating aperture(s) in the die. To investigate the effect of the area and circumferences of the compensating aperture(s) and its (their) distance from the mandrel axis on the extrusion processt III experiment-til dies were propared. The design of these dies is illustrated in Fig 2; the distance of the Card 2/9 compensatIng aperture(s) in dies Nr i, to 8 is shown in  S/136/60/000/02/014/022 E193/E483 Mastering the Technique of Manufacturing Hollow Shapes of Asymmetrical Cross-Section finally, graph "g" shows 8z (nun) plotted against the distance (1, mm) between the compensating aperture and the mandrel axis In dies Nr 9 to 14, for two areas of the compensating aperture: Fnp = 783 mm2 (upper curve) and Fnp - 1020 mm2 (lower curve). it was established on the basis of these results that the areas of the compensating aperture, r'np, is given by the following general. formula: Fnp = (F 11 " FI) - rl I + 11P wher e xErlnp - sum of the circumferences of the compensating aperture(s) (mm)~ TI, -- circumfarence of part F, of the cross-section ~f the extruded shape (mm); rT,, - circumference of part F1, of the cross-section of the extruded shape (nim). The size of the compensating Card 4/9 aperture of a circular shape is given by the formula  S/l36/60/Ooo/o2/al4/o22 E193/E483 Mastering the Technique of ManufacturIng Hollow SI-xapes of Asymmetrical Cross-Section D np ~' 2a ( 1 + 11~ (2) wh e r e Dnp -, diameter (mm) of the compensating aperture, n -- number of compensating ape--tures. FIi PI r, I The applicati-.it of this formiula is illustrated (see the bottom of p 66) by calculal"ing the optimum value of Dnp for the die shown in Fig 2 (dies Nr I to 0). whIch is found to be equal 24.0 mm; its area of 452 trn2 corresponds (as can be seen in Fig 3a) to 8Z = 0, The method, described above, was used in designing a series of dies, employed in fabricating a trial batch of hollow shapes as illustrated in Fig 1; the dies were made of steel 3Kh2V8, mandrel of Card 5/9 steel E1661. The results showed that, with tile aid of S/136/6o/oool/02/014/022 E193/E483 Mastering the Technique of Manufacturing Hollow Shapes of Asymmetrical Cross-Section dies with compensating aperture(s), hollow shapes of the type under consideration can be successfully extruded if the dianieter of the hollow (dimension D) is not less thart 14 mm. Hollow shapes with D > 14 mm were fabricated by extruding blanks which were then reduced to the required size by ccld rolling. The problems, associated with the latter operation, are discussed in the second part of the present paper which is ~,cncerned mainly with the desic of the roll pass for ;rL L th�s applicatxon. Fig 4 shows (a) the deformation zone and (b) the horizontal projection of the areas of -ont-act in rolling the hollow sh~_-pe of the cross-section shown in Fig 1. The analyt."cal solution of the roll pass design was based on two fundamental conditions; (1) equality of the total deformation of contours I and 11 (see Fig 1), (2.) equality of the horizontal Projections of* the areas of, colitaO between metal and tile top alld bottom rolls. After deriving the necessary Card 6/9 formulae, the authors shoiv how they are applied -in  S/136/6C)/000/02/01.4/022 E193/E483 Mastering the Technique of Manufacturing Hollow Shapes of Asymmetrical CrGss-.Section through the rolls with (A) open and (B) closed passes. In order to study the flow of metal during rolling, aluminium pins were inserted in the blanks. X-ray photographs of so.ztions of the tubes before (a) and after (b) rolling in both open (photograph 1) and closed (photograph 11) passes, reproduced in Fig 9, show that prac.tically no distortion of the pins occurred during rolling, t'hus confirming the validity of the principles on whi,ch the present authors based their calculations, and proving that calculations starting from the external geometry on the hollow ~uhapes of asymmetrical cross-section alone cannot give the correct solution. After rolling, the tubes (30 to 40 m long) were cciled having first passed through two diest the first die removed the surface imperfections i'fins, burrs eza), the second die acting as the sizing die. (The authors point out, in this connection, that passing the tube through the first die is less likely to affect Card 8/9 the roundness of the hollow in case of tubes rolled in  S,/136/60/000/02/014/022 E.193/E483 Mastering the Technique of DjaryLlfaCtUring 1-101101,7 Sh&-r-C-3 of Asymmetrical (,,ress-sectIon. a ciosed. Pass sinca, in this cast-. the fill,3 Ore situated opposite "he holl_ejw~) After concluding that the method described in the pr-eselit pap2r can be used for deAigni.ng roll passes for rell-'rig sot_,tions with bo_LIi,,%vs of any rliap~- (square, rectangul,._r) r b wn with cir-cular hollows, they point out that although hollour shapes with acvirimetrical cr-~;ss-sef;tlozzl can hr. al-io inude b,; vollitiff. blan-Its of ayi-ani(Ar.".cal cross--, section, A per-":Lori of' the mat-erial bDing cut off in the coursf-~ of rollAng [see Fig 30). the disadvantave of this niethod lies in tha-, it is niore lik~~ly to give- rise to surface defects (laps). There are 10 figures, 4 tables and 5 Soviet references. ASSOCIATION'St Zavod '*,Krasnyy Vyborzhetsll ("Red E3ectorll Plant) Moskovskiy j-nsti.tu,,, stali (Moscow Steel institute) Card 9/9  BUTOMOp D.G.; VAUHLYA, N.M.; ZVORKINA, V.F.j XOSHURIN A.V.- SFMYEV, L.N.; FRUMINA, Yu.A. W~ . I , I W- Concerning the "Handbook on the processing of nonferrous metals and alloys" TSvet.met. 35 rio.12t6O D 162. (MIRA 16*12) 1. Sovet Nauchno-takhnicheakogo obehohostva savoda "Krasnyy Vyborahets". (Nonferrous met4s)  YELISETEV, F.N.; RUDENKO, L.Ye.; SINEV, L.A., KOSHURNIKOV, B.L.; SOLOVOV, N..".. 9 Polymorphism of copper ai0fteu in the Cu2S---C41,8S- Min- sbor. 18 no.4:385-400 164. (MIRA 18:7) 1. Gosudarstvennyy universitet imeni Ivana Franko, Llvov, laboratoriya pirometallurgil medi Gorno-metallurgichonkogo kombinata imeni Zavenyagina, Norillsk I tseRh zavodskikh InboratoriykambbUta "Severonikell", Monchegorsk.  MUKHLENOV, I.P.; SHABELINIKOV, A.P.; Prinimali uchastiye: KOSRUPMKOV, B.L.; GOVOROV, V.P.; BONDARCHUK, T.P. Study of the procOssos of water-cycling concentration and purification of sulfur dioxide. Zhur.prikl.khim. 37 no.1:3-8 Ja 164. ,- (MIRA 17:2) 1. Leningradskiy tekhnologicheskiy institut imeni Lensoveta.  KoSMWIKCV, G. S. "Influence of size of ions on the electromotive force of a galvanic cell." (p. 1-125) SO: Journal of General Chemistry, (Zhurnal Obshchel Khimii), 1940, Vol. 20, No. 7.  11, 'V ty tv -1 - I 1 -9 , T! If to. AS a fawim of thm. at 201 the sioto. VOW of IOWA umikvv., 1- Obikhpl Kum. OWL cbsnj fcCIW In &bad & linin. with ;V4(CO.H)% 10 min. hb 9964FOOOD-0) AAxwpdm beia aq, Who. (to Oil. -.PbOJl,2D=W.wkb8sOH. At so, wakm of N and 00 9 of pum ftc" soon AM4 socow ce I - 01 4d pm ~ -.:~: 0, in IM Ift, AM)l, sU *wk. '" (19-) ON Md. 4b MkOh.:` ' ' Idnow. Wkk fams4og t"O'. 06 and 002 nift. IU Iw*ww &M 004%. 00450=WS, pw Orvegbe MS. *a Zal b the 61tu 00 bAkatu obwp wksbAke d tl* mbwbw scu. (3) 35U. U13.0. 83.71 At -0A6 -2A -I.Tj go 2D to 3W 3M Wt M 4 Ac 40.N 4A -4 w" buft*# twp. d the tbwmW tristaw fonowbw VI log, 'tW O&OV" d JTWH on Zo, 06 and & #w HsQ hu in. (631.63AL 10.5,8.8; an agask "a 090111111 a ME. and dws 1a; the 0 IM 0.1 N 00 .173 HAD& 4 Id W - , I a tmp. d tin aftertmuoust. 7UN cow" 00 .6. IODA At 28 6 a .4.1. 2006 at Fi. 6%j--OA' -4.61 am be do CIO Is AMW cd wWftdw wkhk tM as. 000 dibd. OoZ4s+FbOHloojaeu.jjw PbOH so W. 320-0. 160-4. MAT At WAIT lbytb~dwptjfwMtjm, -0-4. The "DM." adKOMMM bidk&ft Is low $of H.0 MA min. cc COW). of KUMO,, WO k' re *a V Krptim d 11,0. no &&ark*d k7m Jl=" t ~' -MW -A INSWINS' th- S"t' -Wd~, lh., 1b. rubt emet It wubbs wkb HsO uA low W me (4)vv"tw;lio*bHCHOcr Ida. d At in 1% IIA06 *&,vW. d JU evehad 15, lad 40 =In witbow 11 WOU tbe aamead so b ba Tbw u Fe am UNSINVIIIS uww towarohl a" 9 with aduvWl Mf 1.99, L9k Sad 2LAL 11 CI) COMMd 7 b=ft goany, b 10% HACk, a y "MV. &NOMObd rmHsOaWvwftmdF&crxacwudwM 1: , d (bft.)/val. d M6 evol. 0.1, ght~ OUPWOH, s-011Cj4NO~, s. %f I a I &Mrs d mt. OMP& wasbed w" : gbvmd 41 fodoovis dAc4wm6ftd,w%tunctkaaG6"=p dcMitu: ~Off 1.4 by treat. "Do r of Ill- - I., - wo, IM r - 10 Ckwe to :~ U** 0.145, 0.143. 0.19, 0.19 kbe=-*)&vdrxtrspvWedtor-0(00. sawc=va, 14 Rim In 10% fww. strMs Vat efilrts we CO.= t A. obblnW go me. b pasad dorlag t of fwK'JM cd coo ba" tbt sbaS* d and Uw AdwrW No b wAtWW4=Uy conikilsed with ftg-hwy== tv* A 10 - I L A AtTALLW.SSCAL LMMATM CL&MV"TM:* peAw to=. tto* II/L.-I-11CONS 1111M* usp 09 Sig: OUT Ill =MW u 94.0 0 n 0 a, 0 0 alo .0 0 is *0 0 00  100*10000000400000000o -- - W UP W 0 of Tod 10 0 0 0 , ! I., q 1 34 -41!4 AS C-Q. W 9t + I j . . I . ., : A Ited of vank &&*ion cc It* cMiaiiiatwa of 09 alkali 1139"1 bfilides. 0. -8. Koahturaikov and V. A. bfqkievAll. Zkxy- Chent.) go 14. MD.-71(1048).-The crystal forms apticaring on 00 tvalm. of vatti. solus. of XaCl, XCI, and Ll at room temp. were observed urAtr it* pokrisial mk-towope. T. Frum the pure SaIns., the OR& ciyxWliu in cubes, with' ordy omasksual crystals cut on one side along an octa- fK-drun plane. in the presence of PhIlt, about 6G-7o% rd the NaCI crystals air thus cut alving the walittimn plum. with many crystals cut on both Odr% talons one t4 the temary taxes, orknird Wpmiiculwty to the surface of the soln.; the same c5ml but to a lewe ci ent. Is (ound with KCi no cifect witi KI. Addn. of MINI or Of Pboll to N&H. KCI. WW Kt remdtl In a similar pk-- tuze. With prognesaing evvilso., all cube comers we wen to bectome gradually blunted by octahedral planes; '00 00 is not observed In pittre aWt solas. It the slitte his -00 go Is betra cosard in advam with the org. sulistancv, and a drop of the salt soln. deposited on It, many crystals aft oriented with the ternary axis perpendicular to the slide. with the bottom skin cut along mi ocishedral plane. zoo X The cffcct Is esplained by adsagglon of the org. matter =;~jlth the amtest surface energy, resulting In. crystal gron): In the dircci ion of the ternary axes. hence In formallm of octsbrdral planes. Another 0 J! factor Is the dm7tw of the ratt of diffusion of the salt 9 to the cube planes owing to the presence of the adiorbed N layer. X. Tlion 0 On a S t A s.~'ALLUR41CAL LITCRAIURE CLASSIOCA T10% tic- 9J.01 "vi.t Q~' 6'e Ik ~c.. T. V-s- n An L rM 0 is W I W 9. 5 43 a Ua Ifig Dj 14 K it tj U if Of KLO A 0 0969990004, 9000 00 0 is 0 0 0 0 0 00000 0 0000 000000 e * 0 0 00 00000,00 00000 0 see  : v O a 4-L 00 004 Aft1w it imn with Frottla layffs, - 06P, P(Mki' IMM. ( AlnifW IV, I 000 %f I**-i- 4 AaMOMP C.4,41o M, NIT9, *0 vxtkd towarai I was 1"Ok"d fly 164"bl. itin"trulm to ft rciuk . grMtIn 41.2, cw". -,,A. V*Mt 00 any me id %bt impoilirals rmilts in "t t%&Wvity. W& to hhibml contimtt al IIN(h and 0o Ar mu tualents d V14fin and PhOll. The ive act comalks in the lommilon of a gelatin. 00 .1 n I Abo an ibe IIN(Ji-elvistel imi tutfwt. Thr 0 a films air cvm Ismer r"ista"I to othrr Achlo. JlCl and leftoprolmlionmeminstAdItKAu Pbos- I . = =w proted aplust IxAh 4ci& and salts. :0 4 Adac"Ove passimlim is superior to Nrkerijwtkm. N. Than 00 w ~tt*.ILA NVALLUICKAL UYINSIVIII CLOWItAt" slow ROMOV $WC) b.1v Oww dot caiin 4a cm. --v- -U-- W-- -- a 'A 1, 1 a U AV so a 0 w if ZVI f IRIII othet 441 0 41 0 *Is 0 0 0 a * 6 a 0 a 0 a 0 0 0 0 6 0 0 0 6 0 a 0 0 0 0 0 0 111 0 0 0 0 0094 1* 0 00 0 0 a 0-0-6 o .0;4-0-wo* 0 0 0 0 0 S 0 0 0 * a 0 0 0 0 -00 a9# *0 0 100 40 coo too too 0,  3811 AwwOw bt =6uwsmW d Uw PAMW iftmanumi r Mik- V. affl. Ckm. USSR, INO, U. to wy" G. S. 961 TWEYIr. (of a compound containing cations such Znj under examination is placed in the saturated $Glut i samill sum , Which mts on a mtcmwviw st&V. Direct ORMIStpMn throqlh thiSclectrDlyte solution and the crystal 40*h-m slowly as a result of eketrolysis. I he rate of dimulsOm to? I* replated by adjusims tho current. Thr chngm In the habit 0 the crystal resialtol from its &low dissolution an observed thrMh the microscops, B. J. ZAZA.  MeAell W lot tbdpdm of the rate W polutwo of Crystals. X-h IWV ZA f P 'khW Kh)w, 0. Applit-I 6-*l6'T.7--i:7R;q(iL4w) ""i-Cloytill Is ItuaRracil (tt a "mill. win, W thl Wine Sabs"tw: a dkwt cumat is artat briarvitio 9 itlerind", pooduc1q, as a result of &pcolt6m, The Comm IGM The erptal to d6wive; the cliangr of the sivo *I dw crWAI is f0wed by microwupic obwryatkm. v"dois of t1w Owent intensity permits control of the rule of NW.aijilt a)vUl. N. rhot,  I T, I fl-I t f .~!Sm-$LA ALTALLUA~L,L INATURN CLAWCATICY ago' 0 I age two too* 004JAY ;T u 4 10 kil; fit ;FWA, I"" M L 0 A a 3 a v 0 0 0 0 * 0 0 w 0 0 0 0 fo 0 0 Ole 0 a 0 0 0 0.0 0 0 0 0 40 4010-0 4 0 0 0 o o 0 0 o 0 0 0 0 1 0 0 0 0 041: : 0 0 0 9 0 0 0.6 0 0 ease*  Influem of tho Jimensionst of Ill# long on the VI'dio MOUVI lone of a galvanic C91j, G. S. /Atup. ObAl-Arel Kilitle, (J. Oeo. OwIll.) 20, 11 Vv -3009,"') The caul. ill fill MI N,'Zu teicctralyl ir. oil P0. is it It tile ckctrodft 1wetrclited cuthodically it, I N 11,S0. sit ,-c,k-r to resitt- tb~ cstid~ film to . usiti.. "A*,k-td.,.tl -'I'. XxCl 3.17. 2.11. I~M. 1.05, 0.7S X. to L11:W. I .M. 1.071, 1.11741 v., rrsp.; ill KCI LWY, I.M. .67 X. to 1. 117. 1.104. 1.104. LIK)S v.; in K fir 2 11.1. 1.01. O.t;7 S. to I It-"$. I AM Lo 14 v_ its K I 1.30. O.W. 0.65 S, to 0.$u.. 0.1#12. O.SSI. V.SU, %, fit Wit. sotn,.. &1. 24', the r.in.f. Mis, its KCI ItAks' S.CI 0.740. Kur O.M. K1 0.842. S.F 0.952. 11wa%t&rttlw1lt_q apw with urt efultirk-Al fOrtfill[A rdawig tfir t.w.f. B (o the nidii r. and r. ot cbL tutiot, and clu- --ition. th. w if r,lr.. The prolwiftionillity Lict'll k i, IV 'qual for (hr Sbo'M A vkvuolvtc~' l.v. k - I.:?.X A hivAller tv't 'd this rullwiticol loillittla lit-, ill she 'I". , I fruin van.f. vicusuirtnents iu sald. NIIXI and K Nil, .4 thr radii of the X114* and N0j- isslis. Tht van.f. give for N11W. r. - I= A.. consistent with lite 0.71 4 -1 x 11.3 - 1.34 cak-d. imn Ow covalent radii, atid (w NON r. - 2.2.1 A. Ill I t with fir ruvalent 3 x 11.74 2.221 A. iWAitic vely, the ctaqirui~lj formilla 1, I,wvted by a emillovsMot siction antans oil lite K-All" Cd tbt HICIA1. On &CtjDU 4eC)UljtCrACtVd fly tile in I he Soln. N. Thwi  c 0 y ,""Ile Wlmco o1 tho dWmalons 0 ions " the 11"tro- i otive 1"Ce of #I falwanic call. Or. $. Kwhu"Itkov. (;es. chem. mq.A.K. zo. iwo-mowongi. trausla- C-4. 44. OJY77b. R, M. S.  The i-ii-ectrode.- Koshurnlk`ov. A PPI_ Ax _T' 19521 S.ff.R. 2 F-G( TEUIRM. tion) Zhur. Priklod. Khiv:. 27150(10529)~-EaFgrom exi't- ing data and the e: ession E9 - ~O(R. - Rj). Micre Ea is thu normal clecti e potential of the metal, R. is the rudiuv of the metal atom, and Ro is the radius of Lite inctal 1011, 8 Curve is obtained for F4 vs. R.-.R,. 'rhi. curve jil- trrsects the Ba axis by rxtrapol,tion. and the zero-potentiul is thuii obtained, the mean value of which is equal to +2.2 v. With this value for the zero PJ(Ttrodc potential, a scale is- given ~)f normal elect rode potentials. starting with M ' r-1 Li as 6.21;, v, and cudini(Vith An+ 4:1 An as 0.60 v. B. R.  1. KOSHUR-41KOV, 1-S. ". nSSR (6oo) 4- 4. Crystallography 7. Effect of or-7anic admixtures on the diissolution of crystals. Zhur, Drild. khin. 2.5, no. l?, 1952. 9. Monthly List of Russian Accessinns, Lita-ary of Congress, MI. eh 1953. Unclassified.  137-58-2-3649 Translation from: Referativnyy zhurnal, Metallurgiya- 1958. Nr 2, p 195 (USSR) AUTHOR: Koshurnikov, G.S. TITLE: Effect of Ultra-violet Radiation on the Protective Properties of Anticorrosion Lacquer Coatings (Vliyaniye ulltrafiole- tovogo oblucherdya na zashchitnyye svoystva antikorro- zionnykh lakov,ykh pokrytiy) PERIODICAL: V sb.: Raschet i issledov'aniye v optichesk. priborostr. Leningrad, LGU, 1956., pp 126-128 ABSTRACT: A communication on the use of ultraviolet radiation to dry paint and lacquer coatings. Comparative data on the protec- tive properties of 41-T lacquer (L) after air drying, forced drying (150'DC),and after exposure to ultraviolet irradiation (with a PRKA lamp) are presented. The protective proper- ties of the L were determined by the time required for a 10% HCI solution to penetrate through a film of L applied to the metal surface. The L was applied by immersion, and also electrophoretically. It was established that ultraviolet irrad- iation of the films diminishes penetrability of coatings. Card 1/1 D. Ya. 1, Lacquer coatings-Drying-Effeots of ultraviolet rays 2. Paint__Drying-Zffeotz;of ultraviolet raya  137-58-4-7916 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, p 222 (USSR) AUTHOR: Koshurnikov, G.--S. TITLE: Electrophoretic Application of Lacquer Coatings to the Surface of Metals (37--lektroforeticheskoye naneseniye lakovykh plenok na poverkhnost' metallov) PERIODICAL: Sb. nauchn. tr. kafedr. matem. , mekhan. , khimii. Leningr. in-t tochnoy mekhan. i optiki, 1957, Nr 24, pp 91-94 ABSTRACT: An investigation is made of the protective properties of lac- quer coatings (LC) applied to mild polished Fe by electrophor- esis, by means of nonaqueous solutions. 41-T lacquer was dis- solved in acetone in volumetric ratios of 70:30, 50:50, 20:80, and 10:90, :respectively. Glycerin-phthalic anhydride lacquer was deposited from a 50% acetone solution. Electrophoresis was continued for 15 min at low current and 24-300 volt potent- ial. The walls of an Fe beaker served as the cathode. The lac- quer coating was dried at 1580C. Weight-loss tests for corrosion performed in a 10% HCI solution showed that the electrophoretic method of applying LC to Fe permits the production of coatings Card 1/2 1.2 to 1.3 times as thick, and 5 to 6 times as effective in pro-  137-58-4-7916 Electrophoretic Application of Lacquer Coatings to the Surface of Metals tective prOpeTties as LC produced by immersion. Bibliography; 16 references. Ye.Z. 1. Lacquer coatings 2. Metals-Coatings 3. Electrophoresis-Applications Card 2/ /2  137-58-4-7908 Translation from: Referativnyy zhurnal, Metal 1u rgj y;~,,., 1958. Nr 4, p 221 (USSR) AUTHORS: Koshurnikov, G. S. , Nemilova, 1. V. TITLE; Use of Anti-corrosive Organic Coating on Oxidized Mild Steel and AluminUM Surfaces (Primeneniye ani.ikorrozionnogo organi- cheskogo pokrytiya po oksidirovannoV poverkhnosti myagkoy siali i alyuminiya) PERIODICAL: Sb. nauchn. t.r. kafedr matern. , mekhan. , khimii, Leningr. in-t tochnoy mekhar. i optiki, 1957, Nr 24, pp 95- 102 ABSTRACT: The resistance to corrosion in a 10% HCI solution of lacquer coatings on oxidized specimens of mild stet:l Fnd Al was invest- igated with two methods of Pipplication o( 4i-T lacquer to the metals. It is shown that an elecirophoretic coating of lacquer on an oxidized surface increases the corrosion resistance of spec- imens of Al by a factor of 70 and of steel by 25 to 30 fold. Note is taken of the small d:fference ;-n the corrosion re~;istance of a lacquer coa ting applied electrophoretica.11y and by simple im- mersion of oxidized Al samples. P. S. Card 1/1 1. Steel--Corrosion prevention 2. Alwidnwn--Corrosion prevention Organic coatings--Applications  26872 6-D S/081/61/000/013/005/026 D B105/B201 AUTHORSt Koshurnikov G. S., Ivanova A. P., Levinzon A. L. TITLEs Eleotrocrystallization of metals in the presence of organic and inorganic substances. Communication I PERIODICALt Referativnyy zhurnal. Khimiya, no. 13) 1961, 86, abstract 136652. (Sb. nauchn. tr. kafedr matem. grafiki, khimii i teor. mekhan. Leningr. in-t tochnoy mekhan. i optiki, 1960, vyp. 31, 110-119) TEXTt The authors studied the effect of organic and inorganic admixtures, to electrolytes on the electrioal resistance (ER) of metallic coats. ER of Cu coats, obtained from CuSO 4 solutions, is first lowered with increasing current density i, and then rises again, deposits of dendritic structure being formed. If HNO 3 and R2so4 are added to the CuSO 4 solution, the ER minimum disappears, and the dendritic forin is not formed. An addition of H 3B03 shifts the ER minimum toward greater i, while an Card 1/2  26872, S/081/61/000/013/005/028 Electroorystallization of metals in ... B105/B201 addition of Na2so 4' MgS04' and Al.(SO 4)3 shift it to smaller i. The increase of the minimum of ER, which depends on the nature of the cation was explained by the inclusion of the hydroxides into the interstices of the crystals. An addition of benzoic acid and aniline increase ER onsiderably, while an addition of phenol and sugar is almost ineffective. Abstraoter's notet Complete translation.] t Card 2/2  5'.-100 AUTHOR: Koshurnikov, 0. S. 2571T' 8/18/61/000/012/023/042 A004/Alol TITLE: Electrophoretio application of lacquer films on metal surfaces PERIODICAL: Referativnyy zhurnal, Mashinostroyeniye, no. 12, 1961, 95, abstract 12B684 ("Sb. nauchn. tr. kafedr. matem., grafiki, khimii i teor. mekhan. Leningr. :Ln-t tochnoy makhan, i ptiki", 1960, no. 31, 149- 151) TEM The author presents the results of investigating the application of lacquers to metal surfaces by the electrophoretio method. Specimens from oylin- dric bars of soft steel and du:ralium 6 mm in diameter and 90 mm long and from magnesium-manganeiis alloy sheets (MA1 according to AMTU 167) with the dimensions 50 x 10 x 4. nun were cleaned with emery cloth, washed with aoetone' and treated eleatrochemioally,in acetone phenol solutionij,'after which they were coated with lacquer by the electrophoretio method. Comparative corrosion tests showed the highly proteotive-properties of lacquer films applied by the'eleotrophoretic method ontoian.adsorption phenol layer. The mentioned coats were not only Card 1/2  25737 S/123/61/000/01a/023/042 Blectrophoretic application of lacquer ... A004/A101 resistant to.oold and hot-10% hydrochloric acid and to the-3% solution'of boiling acetic acid,.but.even showed'no signs of.eorrosion damage after a 236-day expo- sure to the atmosphere of an industrial,town. N. Savina [Abstracter's note: Complete translation] Card 2/2  Ov """4Z  000009*900000*00 0 4, : : 0 li 0 * 0 0 0 a 0 0 a 0 0 WAF-f--O- 14 to 0 1. it a u" 4' u it 0 a Lie I- 6k 0 IX 0 0 90 c TrIjkAj pktlog Ills. h, .1:1 it 0 w AlP. III itI L(k%. illinit"ll I,.- I U', 'j, 4 Ilmb-414.11 t'l-141 loj,% We and ItAllil,l in 'I ~I-n WHY "1'l ,It, 11"t, * Allikm h it A I UR I, comilitt-4 Ill I.Y, a ~ Il'o d4V tile. li'l4litig I-14'ertirs ale U11,416factilly. It - ' , s d I 1.1711101,41 CL&%WK&ylC" us f tooo u IV it! 0 0 0 a tr as 0 8 1% 13 11 04 6 11 e a 0 0 1 0 * # 0 * 9 0 0 0  A r~ 1-71. (,7 4-1 a, e ~ I CO- Abcialm Atirit at?, )9R). MO. )),-An abrasive Im produced by heat, treating pytophyRite, This Is wcomplished by heating a C"n pyrophyllilr, containing no carundum. to 14(W. M.1110.  461 0 GIL sell 0 99: 000 0 O:z 011 0 0:3 04M 002 0 Or 00=~ &OW so- so. 0 1111- 070 1"'60 A b tp f 00 JR L a 0, 0 N 4 1 1 IN Two I u M 10 It At 0 Jd 0 b P, 1,1 f &I a *1 0 ci. &I u n a OUL f so KOO= QV M- if, l"ll-Al ;TS UV` CIL -AV. offla 17) 39i"l-I (111411) -RAtifillife ballopitv, rnmtrn-l lonite. etc . critel into ihe cornpositWm of tntnt of the c6y, Jk3id-1 qU4MZ. Vok-2. CiLfbOnIt". FCVCIL 21141 tIUnrAJjCIW. wthich am CMAefrd at (13Y Admi'atin-, Aluminum III, drate sticlit as hydrargillitc. AI(011),. and Ims"IvIc. ( Alt I t Off, are soinethric-Ii Mi-~ffml Silica in the Imin If x-1 trav id~o be lKe-ent, bUt AIW3Y% in %Mail aTI`10UIIt-- Ill" P 0 1"I" .. alippharte," whieh tot-Ans arnolphtpilt nii%lurq, III AmitinA wid Oka set, III not %uitkirle. Clit)m air .1-v, 1z 00 ccxnjx-~cd of irty-tallized utincrals evett It they IKA-C-% MI loWidliopeTtirstipastrialldrgm. Onthelusi%Ochrini- 00 Cat anti varchanical auttlysts, all the cortibinvil alumina and Qica are utually relaird to kataillite ill the mildli"'Of vl.sy' p0* and Ili Ific ticit-rujinati-tit III cl,,y tulAtmice; flij, i, ljol 1%actlYvIWrftt. It is (o use "Feth(Al, IWIttki(tilix'4 00 #IPtrT vx4ct determination III vurium tyjIIm. 0 alurnin~ih 00 catesviteringintoctt". Knowing the physk-Al proMtie, ?I the'v alumilliftilirair-, at is Inuch riewy 11) Alel"filint. the 00 :-IIMACI"Wi%~ A the vby mudied troin it, t-intipincrit% jS so h,-%- pr' qWf ic-'irr L Ill)" it 00 so oti X, 11 a p9 a zi It of Ole 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 410006909 0000000 .11 so so 00 so ;T 00~ WW 'IV so Q or it it 1: 102 041 401 0*1 tot to At It 11 a a I I f 0' 0 a a 0 0 0 0 0 0 0 0 '0 0 0*000000*04 6 see *of  oil p 41 1~4 Ila tp~ C2 VO 14 Ai F-S 4-a all A I its i~51151;0 it q glvlffl.ffsigll mgsi '1 -00 ~!Wg si r., ~ji I  contrut of Sodaluallt *~d &%hrne h 20 to 5b%. The tv, milliontcas. Tin dielculty Presented in concentrating " am is the presem of Ti w0 Vt. A cow"uste camilliftilks M% ALO% is a defiatte pabib4lly. This dcpftk 6 a vabusbk too -MIUW OMM for the ptodactift el-ollonAs PW Ai ructal. The Kos~"l dnwalt. 97 krn. soudma of Kounrad, condos a two puts* am contains 10 to 07g. ondtheodwrover50%ond-L-le Thedeposit"Ma"IT Vlv'i~kxstt4U2km.iZt-bZt-~iDeklim-Ats. Overs secondary quo"alle arm of MoOW sq. tn., 4(l to me,; andalulito wu lottod" In the depodt al Kasyl -Tow, 25 kra. south of At-Togal, wtft found (our areas of s; judary quwtxitcj containing 10tolliblrandalositetwicbedby6to ilb%mrandstruanddisoparv. In addition 30to6ofoalu. nitewasalsolouDd. lutbenorthrrnbrawbescithenek- tsul-Ata Mocatains 6 the Teirracs deposit coming an area of 270.OUD *I. w. and containing 30 to 60% andslusite. T b: vah. W andalusitc 1. tk. productl. .1 refractories is provtd. It it used in the production of spark pluts, Protective coatiiss in slasameltins pots. stoppen and Ming, 1. Ocel-plg ladles, refractorl. for cupolas. ctc. bl.Ho.  1*09*9 * 0 fee 0000 00 0900 of 00000 0 00 0 000 000010 low a 6 Ict 4 90 A L a N 0 P11 a I Ip" is 11 H U m 0 is v a if A* 61 4 4) d 61 0 A- AL ~4-L-q, 4- 0 t -1-* 1-1- t ill CR at is TS IT31144111410 V111,019 qo.v_M. 11., and Zywyan", A. 1. KAIAKII- 0' 1-TAN IA%IIAI t;V41111 1. Ocmr-j~,wy. 10 11 ',1 V 26 1 2 1~11 Al A; thr S Vic. moil. &Atakh'imt i, I'mit'lit"lly lh-h S 0111 NiallytJ41111.,i ill I-it"lit, fit -illd nultit-muft lquall Vvill. "I allim.1 ;V-V,r 00k reowww"I Ifton whim11% RMI their l%pW4tw*RI I, liot Kart-CIwku i1rimit, 3,N kill vm%b of the metsick-MI As 1W.-witi. Pi'UTICAm thol-4k.. vithet jq%,~ I%"-Itwktl 44 hK"O 411111 vilify v%pUnted im %uitaltir for iinitimit..tv 11titterral, Milainiliji till W 70' AthiAhl'Ale find mitIsr"M ft Air 41cwtitmA. Ttw twinix,flups drixisit local"t 1441 kin itiately 15r~ katilinitr. The KunictAl driltwit. VAI kill. "t Of KAM"1141 44 VPtjnU1tV4I 10 C(MitAit! IL111.111111 11M, ~mthvve%tof Kark4rahnk. timiltri'm 10.q. kta.01 semwl- am. The andalusite ctinvent is all to Slr~l poil there s, ary quarlsiles. withill it air thrm arrAs mulaitlins its . pytok,hyllitt. The rich me% contain W Anil Insite. Thetiucthvu~trfgl r 2"OX4(IOnI.coPtAJJ1U% izlis alwarve, I(XIII x =01111 kis than 2`-, FrA, Real k" than 11',; VOO + Na,(V SR111L.11, *41111 nw 'If thi. tletloil "IntAill 4111; t"Itaillillif ;w to all ; AndAltititir mod to to 3(W.' ItymPtilct 00- the loo-trat mrs miltAill 16 to w1j, amutu-itr, file. The third Area. to Ow mothwest. contaim 40 to Mr' The Kounmil dirl-it is tlutmi"I at wvml ticifficai tm#.~ AtulAtuslic. Sevrtal kilt"ticirew with of Xurlwtai i- lh~ 0 The imiribeers put W thi- deju-41 comprisei air mra of Chok-JUrla drix-il. covilmi,inS INVIIIII -Q. Ill, And C~mt 00 ISiI;Ih0 sq. in. and it, wittlitirn Ian is approXiMately sistirill of wcxmlA-ry quwlttitt~ vontAininit 30 to 61"; AudA- (W sq-m. 11w ore (A the northern tictwmit t3xitainh ovi-t IU%itr. With ft InAlkilltUri A KY", FlWtY kilMICtM %Mth' UU111A.1 it' ArTandAtutiti. east of the Monty VittOW41 RAOSM(I north Of K I ? TV alva., kin. vmwlkw~l -if Kmintad. It ecsim-t% of quatisil,, I. the Sh"hen, I~ACA 4cluvrit. It of IN "Wi4i"Ifte Ill to 1W)", .4mixiti.fir still ~trctchr. .%Vf act ~Nwltainjnff 1.5 w 11";. 40 lil.1411;, Af"I #Up to Me; alftwit I-mie -#the lwtt,-t *uivryM part. %itc. Thb arcem n --nly ixtrtly xu"vyrd Alld twxAMNY MI 00 1-1 thi, arrA the mmit.funicontent is Cd) Ill 78`1~. 11wile- tainct owe than is prv~,ntly -tintatmi. The AIW dqpmit Ikku delkwit% are Itwated 150 km. PoutheAm DI KAtkadna, is Imated 17 kin. Ifemn Ust'-Kattlenotfor%k. The mim"I, 00 06 insk And civnitwisr V.5 %q. kill. In mmir its parts vrers, found theire are qwtt& diAthenc, andalusitc, wficitc. and. 11 010 ThcAL AS &CCOMIVAnyiVIS IUilICfAI% filtilf, 14711011ith"". WoPhyl ~6-n delmmil i. I,vafal VAI kill. mitilb -4 KaikaralinA fite, arki er"tigittims multotinch The c9tribinvil tn"Itelki .111 the I"hill, ~J Itte Kyffyl-RO The ~c- A arstinjuxler 410 disthrilic I* !Nitn Mr,,,- TbervwtvrcA cW#dAtY fP"tlJEiIC* CUnIalining Ill to 74111*~ AMUMAtt stirrich Ibm IllirwrAl, i, estintal"t At myn~l -111k.. t- r9w 1Wrl All area of 3 sq. kku In additim. form outcrvf,~ Aj C- Ilk 0-4 1 v OF 1 9 is 4, 0 It It " It It ItA a is R 4 11 14 0% It 13 11 at I I A 0 11 - I Go**#) go** 40 a see 0 0 0 0 0 00 60 Ve 4111 1-- ach  10-9 "1 of Ti AM Fe. A com-rntrAte conimning M"i Alith i~ a ckfinite puftumity. This d.t t' a valtuble raw- ntAtCILJ ~cc (tic thr proilzir.1of siltunin and A) metal, T%c $:~Kysyl dclitmit. I),- km mtiujst 0.4 goubrull. I" ilv, Ilk to 4J% And tit, ronpitt. a twit IwN.. .,,it c.,nu ..-I ThrAvix-it "Mjklk~iv ul" i =1 kin. -withe411 (it llclcuu-Ala. Olk" a kim-lUt 40 Q1%dAlU1i(V rfinid. In thr dvjx~it of Kaj;I.Tali 231m. somth 4 Alt-Tott.i. -"r found ((Rif arv;'~aMI-of"taty quaritit- t-ontaining lit tit ;VV. jntl.iltk~nr rnriclwd by 5 to I-W, comniclunt adil dkojwr. In jilditim 341 to .110"I alunite wa.% at") 14'Und lit thr nkV0wr" twunChrs of thr Ilcktau. 00 AtA. Nfotktsunl~ i~ ttw Trictnes del"it crovefi.10 i4st Am of .rayhli) qL lit. Anki containing 'Itl to 50"i alhlillil-il[C. The 00 volut c,( anglalti.itr ill the productitku of rrfmclork-s i, 00 Iwornt It i. umA in the ptcultwtion of ~Ikatk plup. Iviri, 00 OW k,k"tlnK. ill OL'-weltillot Itot%. -toplW1, arld fint"4% IcTl I"imfing Milk" ".1roct'"n- fm '-ul.'I... "e. 00 00 00 so 00 0 0:0000000046000 000000000000000000 000000000000000 090000000000000 4146090 0 00 00 *0 *0 06 46 be 9 0 0 100000 90  NONOROV, A.V., doteent-, KOSHMIKOV, H.S.. professor. - [Building materials) StroitelInys materialy, Xoskva, Gos,isd-vo lit-ry po stroitalletyu I arkhItekturs, 1953, 295 P. OMA 6;12) (Building materials)  16(4) SOV/96-59-4-5/17 AUTHORS: Koshurnikov, N.L.,and Komarov, V.K., Engineers TITLE: Breakdown of a Flood Gate Made of Low-Alloy Steel (Razrusheniye zatvora iz nizkolegirovannoy stali) PERIODICAL: Gidrotekhnicheskoye stroitellstvo, 1959, Nr 4, pp 23-27 (USSR) ABSTRACT: The article deals with the breakdown of a 3.5 x 5.7 m flood gate made of I'St.NL-21' type low-alloy steel. The defects consisted of crosswise ruptures and fis- sures in the central part of the flood gate and also along its welding joints. In addition to this, the flood gate had deflected inward as much as 135-150 mm. The breakdown tas attributed to insufficient stability against vibration stress, which in its turn was caused by the following factors: 1) poor welding; 2) poor design; 3) incorrect pressure distribution within the flood gate's framework; 4) wrongly-made apertures and slots which caused Card 1/2 the flood gate vibrate even when closed. The break-  SOV/98-59-4-5/17 Breakdown of a Flood Gate Made of Low-Alloy Steel down was also hastened by an exceedingly long serv- ice period in a half-opened state, thus promoting vibration. There were no inspections made for as long as two navigation seasons. As a result, the paint had completely disappeared and 'the flood gate was thus seriously corroded. There are 2 tables, 3 diagrams and 2 Soviet references. Card 2,12   KOSHMIKOVA, N.A. 4MX~-" Histopethology of the ovaries in chronic inflamation of the fallopian tubes and its residual effects [with summary in English]. Akush. i gin. 33 no.3t74-78 157. (HLRA 10:8) 1. Is Institute akusherstva i ginekologii (dir. L-G-Stepanov) Ministerstva uIravookhrananiya RSFSR (YA11WIAN TUBBS, din. with ovarian hiettipathol. changes (Rae)) (OVARIBS, pathol. changes in fallopian tube die., histopethol. (Rue))  KOSHURNIKOVA, N.A., Cand Mled Sci -- (diss)"Histology of the ovaries in 11*0.1). *nflaination of' the f&lloj-j,,-n tabes and its r~'-- * . z 44z-d- , " . Mos, 10,5R, 7 Pi .-OtIPP44 ~- ~ - (Min of Health USSR. Central In5t for Advanced 1'raining of Physicians) 200 colies (n, 39-56, 112) - 66-  28232 S/58 61/000/000/003/020 D299YD304 AUTHORS. Bogatov, L.V. and Koshurnikova, N.A. TITLE: Changes in the blood system of rabbits with multiple repeated external gamma-irradiation SOURCE.. Lebedinskiy, AN. and Moskalev, Yu.I., eds. Biologiches- koye deystviye radiatsii i voprosy raspredeleniya radio- aktivnykh izotopov; sbornik rabot. Moscow, Gosatomizdat, 1961, 29-37 TEXT; For a fuller study of the changes in the rabbit blood system throughout the whole period of prolonged gamma-radiation a complex study of the findings from hematological and cystological examination of the hemcpoietic organs was made. The rabbits were killed off after total doses of 210, 420, 630, 900, 1410, 1920 and 2490 r~ A detailed account of the changes in the bone marrow, spleen and lymph nodes is given. These changes can be broken down into 3 periods. Perioe.. I from the start of irradiation until a Card 1/4  Changes in the blood sy!;tem... 28232 S/581/61/000/000/003/020 U299/D304 dose of 630 r. Changes in the peripheral blood and the hemopoietic organs increase. The inhibition of granulocytopoiesis and thrombo- cytopoiesis in the peripheral blood and the inhibition of lympho- poiesis in the spleen and lymph nodes are accompanied by a rise iii leukopenia and thrombopenia in the peripheral blood. Thanks to greatly heightened regeneration in the crythropoietic system, the red blood does not change. After a dose of only 60 r relative hyperplasia of the red growth begins. These data are contrasted with those of O.V,. 43elousova (Ref. 1: Patologicheskaya fiziologiya ostroy luchevoy bolezni (The Pathological Physiology of -icute Rad- iatio-n Sickness), M., Redgiz, 1958, pp. 192-211). Period I is therefore the period of primary reactions, marked by early simultan- eous onset of changes kta erythropoiesis and leukopoiesis, inhibition of the white growth and hyperplasia of the red. Period 11 from 900 r to 1410 r. This is first marked by a sharp drop in the abso- lute number of erythropoietic cells, followed by stabilization on a low level. The number of nucleus-containing cells in the bone- Card 2/4  2-1232 S/581/61/00011000/003/020 Changes in the blood system... D299/D304 marrow fell to 33% of normal as a result. Mitotic activity was greatly inhibited in both the marrow and the lymphopoietic organs. The lack of rising blood system changes in this period indicates that the rabbits were adapting to the rhythm of irradiation; new reparative processes apparently developed under the protracted ir- radiation. Period III from 1920 to 2490 r. This is marked by relative normalization of the hemopoietic organs' quantitative composition; total cellularity increases to,66/'o of normal, as oppo- sed to 337a in period II,, Mitotic activity increases and the number of erythroblastic. cells rises more intensively. Under protracted irradiation qualitatively new cells, capable of division, can appa- rently emerge. In both the red and the white blood of the marrow, spleen and lymph nodes cell regeneration proceeds normally, but with greater mobilization of deep reserves of hemopoiesis, as is indicated by the increai3e in the number of reticular cells. The main preference is for 4-rythropoictic regre-neration, as the most Important process for tbuB continuation of life. There are 2 fig- .L ures, I table and 20 ret-lerences: 11 Soviet-bloc and 9 non-Soviet- Card 3/4  28247 S/581/61/000/000/018/020 D299/D304 AUTHOR: Koshurnikova, N.A. TITLE: The histopathology of the sex glands in rabbits affected by incorporated plutonium SOURCE: Lebedinskiy, A.V. and Moskalev, Yu.I., eds. Biologiches- koye deystviye radiatsii i voprosy raspredeleniya radio- aktivnykh izotopov; sbornik rabot. Moscow, Gosatomizdat, 1961, 164-172- TEXT: In view of the shortage of published data on the effects of incorporated radioactive isotopes, the author made a study of the histopathology of the sex glands in rabbits affected by incor- porated DlUtonium at both near and remote dates after the isotope entered ihe body. Pu(1403)4 was injected intravenously in the fol- lowing doses: group 1 21, group II - 14, group III - 7 and group IV - 2.,;,Lc/kg. Groups :1 and II sustained acute and subacute radia- tion sickness and mainly died of aplasia of the bone tissue. Groups Card 1/3  2P247 S/581/61/000/000/018/020 The histopathology of the sex glands ... D299/D304 III and IV showed symptcms of radiation sickness. Group III ani- mals died mainly of cirrhosis of the liver and group IV animals of osteosarcomata. Histological examination showed that part of the plutonium was retained in the connective structures of the sex glands,. The incorporated plutonium led to a whole series of patho- morphological lesions which broadly consisted in the damage and death of the parenchymatous elements of the testes and ovaries. The degree of illness varied with the dose of plutonium and the time which had elapsed since its injection. In the e arly stages the main role in the development of pathological lesions of the sex glands is played by the direct action of radiation; at later stages the general state of the body is of prime importance. The changes in spermatogenesis were of a phase nature: inhibition phases alternated with phases of restoration. Spermatogonia were restored by the undifferentiated cells of the sperm ductules. In the ovaries restoration apoarently did not occur under the constant radiation from the incorporated plutonium. There are 2 figures, 2 tables and 17 references: 8 Soviet-bloc and 9 non-Soviet-bloc. Card 2/3 1  28247 The histopathology of the sex glands ... The 4 most recent references to as follows: T. Carter and oth. L.C. Fogg a. R.F. Cowing, Cancer 11. Questler, J.P.M. Bensted and 501 (1959); R.H. Mole, British S/581/61/000/000/018/020 D299/D304 English-language publications read Brit. J. Radiol. , 27, 320, 418 (1954); Res., 11, 23, (1951); L. Lamerton, oth. British J. Radiology, 32, 380, J. Radiol., 32, 380, 497 (1959). Card 3/3  S/742/62/000/QOO/015/021, 1015/1215 AUTHORS: Lemberg, V.K., :Koshurnikova, N.A., Klyzhuk, K.N. TITLE: The effect of incorporated plutonjum-239 on the "rnbbito blood in SOURCE., Plutoniy-239; r.ispredeleniyev.biologicheskoye deystviyc, uskoireniye vyvedeniya. Ed. by A.V. Lebodinskiy and Yu.1. Moskalev. Moscowt Medgiz, 1962p 92-102 TFjXT: The effect of incorporated Pu on the blood has been in- sufficiently studied and tho data present in the medical literature ~J i Fj a matter of controversy. Experiments were carried out on 119 rabbits (Shinshil strnin) weighing 2500-3000 go They were adminis- tored i.v,, 7 and 2rCa/kg V.i#. of plutonium nitrate (pH 2) The Card 1/2 T  S/742/62/000/000/015~021 1015/1215 The effect of incorporated plutonium-239... peripheral blood and the boric marrow 'were examined-during life and_ after killing of the animalc as well. The investigation lasted for 15 morylbjhs. The distribution of Fu in the hemopoietic organs was stIX_ idied histoautoradiographically. A part of the tadioisotope was re- tained in the reticulo-endothelial systein. The bone marrow was -illy due to the distribution oh -4 affected foc. ar4cteriBtics of Pu in RD -cello. The lymphatics were relatively well Vreserved due to poor 1 distribution of Pa in the lyinphopoietic organs -(the white pulp of .Ahe spleen and the germinati,Qre centerd of the follicles in lymph no des). The peripheral blood 13howed only very Pli&t changes., This was considered as a result'ol increased hemopqIesise There "d 7 figures and 1 table. C ard 2/2  -'--TITLE: :-Content t s af cal dhanges in ese. brigan A io Lvnykb Azoto v- (Disi 4tion- akt:' PC)      `tmqrs,~~Ab,. -ITI-th urnales t~orl   EWT(toL A.CC NR, AP6014669 SOURCE COM. tM/0241/65/010/010/0037/0041 Jl AUTHOR: Yerokhin.. R. A%6--Erokhins 'R. A.; Koshurnikova. N.. A.; Ternovskiy, 1. A.- Ternovsky, 1. A. ORG: none TITLE: Gamma-spectrometric intr avital determination of Pu in the living organism -SOURCE: Meditsinskaya radiolo a" giya v. 10, no. 10, 1965,37-41 TOPIC TAGS:- plutonium,.gamn,spectr-ometer, radiology, americium, scintillation spectrometers photomultiplier, pulbe-analyzer, pulse amplitude# rat, liver/FEU44 photomultip~lier, AI-100 0 se zer ate of ABSTRACT: :Th r an experlm t; I d6termina,lion of the possibility of, ;the direct intravital me"urament of'?N and Am,241 2 the organism by means of ca rometeAgel5resented. The principal components of the spectrometer used were: a, Hal( scintillation crystal 20 mm thick e- and 40 nm in diame-terp -with an FBLI-24 photwhatiplier and an Al-100 Pula iamplitu _&i do analyzer. White rats; were Men intravenously or intratracheally.. wate salt with a PH value of 2*OB Tu in the form uf the nil ~Wlj - in the wwunt of 5 microcuries,por rat,0 ov in the form of the nitrate CM(NO~) with a PH of 2. a.. in the amount of 2-72 microcuriee per rat. The Pu ~an ~~l contents of the rat organism vere mea4ured immediately aftm%- ward Ias well as at interveU of 1 -2. 0 s. , 4s 9s 16 32,, and 64 days. Lung activity veried identi~41~4k rata: intratrachea4y pRisoned with Pu and kA2" rd 1/2 C UDG*. 61L4M.927.994-073-504  L 24233~&$ ACC NRt AI?6DI4669 0, nitrates': toward the 16t'h day the extivity dropped'30%; toward the 32nd dar., 150%; mid tward the and of thOexjx(r ti 65%. Throughout the experimentj ,-the content of Pu exceeded that of The dynamics of the change in Uver, -Ang administi-ationa, :'the Pu-nWjiO--t'6%wd the 3rd., 7th.9 30tN activity fallo oand 60th day vas 97j, 72* 41-90, and!22.5%,O: respectively, for Am241 these dyna- Imics differed someiihat. In addiW~np the minimi amowts of Pu and AM241 'still. detectable by thespeetromdric meth6d in different organs (kidneys,, I I liverj, hip,,I spleen) were determinedib for Pu.they were found to correspond to q?9l"904! nicrocuriev per- rot orj~=O.and for Am~4p, tp, 0.0028-0-0097 nicro-! cut es per iit.organ and 4 tables. [JPRS g! SUB CODE Oqj,~2 !MATE'S -l2Jan65~./_._-OkG,-IREF:-, 003 UM REFS: 005 A Cord 2/2&11a~:  KOSHURDV B V kand. tekhn. nauk; PAVLYUCHUK, A.I.; TAYTS, YO.I.; ':' --J' -~~:~;DOIUV, A.I.; VAKSER, D.B., red.; FREGER, D.P., red.izd- ve.; BELOGUROVA, I.A., tekhn. red. [Use of diamond tools in the manufacture of machinery) Pri- monenie almaznogo instrumenta v mashinostrocnii; stenogramuma Iektsii. LeningrBd, Leningr. dom nauchno-tekhn. propagandy, 1963. 30 p. 0-11RA 16:7) (Diamonds, Industrial) (Metal cutting)  KOSHUTA,--,A.A...--. I-,- I-.- -- Use of a multiple correlation method for establishing the relationship between the cost of electrical machines and their principal parameters. Energ. i elektrotekh. parom. no.1:47-51 162. (MIRA 15:6) 1. Kharikovskiy inzbenerno-okonomicheakiv institut. (Electric machinery-Accounting)  KOSHUTA, Aleksanir A-leksandrovicb; STEBUNOV9 N.S.,, red.; SLUTSKBA2 TS.S., mlad, red. (Determining prices for the products of machinery manufacturing] Opredelenie tser na produktsiiu mashino- stroenila, Moskva,,, Ekonomika, 1964. 75 p. (MIRA .17: 11)  \1 BATI, A.A.; KOSIUTIN, B.N. (,Moskva) Stat'~ tical studies of crane loads. Stroi.makh.1 ra3ch. soor.' 2 no.3:1-~ 460. WIRA 13:6) (Strains and stresses) (Granes, derricks, etc.)  KOSHUTIN, B. N.,-Cand. Tech. Scl. (diss) "Determination of Co- efficient of Overloading of Vertical Crane Load on I.Jasis of Sta- tistical Study of Operation of Cranes in Workln-- Shope," loscol'T, 1961, 26 pp. (Acad. of Construc. and Archit. USSR. Centr. So. Res. Inst. Construction DRsigns "TaNIISKII) 160 copies (KL Supp 12-61, 269).  r\10SH0_,,N, M.P* PHASE I BOOK EXPLOITATION 1076 -Leningrad. Politekhnicheski3r Institut i ~Dinamika i prochnost' rashin; (Dymamics and Strength of Machines; Collection of Articles) Moscow., Maghgiz, 1958a (Series: Its: Trudy, No. 192) 234 P. 3,300 copies printed. Ed-.: IAirlye, A#I., Doctor of Technical Sciences, E'rofeBsor; Tech. Ed.: Pollskaya, R.G.~ Resp. Ed. of Series; Smirnov, V..A Doctor of Technical SciencesP Profeitor; Managing Ed. for Liter;t-lure on the Design.and Operation of Machines (Leningrad Division, Mashgiz)'-. Fetisov, Fels, Hngineer. PURPOSE: This collection of articles is intended for scientific and engineering workers concerned with problems of dynamics and strength Of machines. COVERAGE: The collection contains articles on problems of the theory of elasticity, Oscillation,, and automatic control. Card -1/5  Dynam~os and Strength of Machines (Cont.) '1076 TABLE OF CONTENTS: Foreword 3 THEORY 01' ELASTICITY 1. Dzhanelidze, G. Yu. Saint-Venant's Principle 7 2. Dzhanelidze, G. Yu. Stability of a Strat'Loaded-by a Following [Nonconservativel Force 21 3. Koshutin, M.P. Problem of Bending a Cylindrical Shell 28 4. Lurlye, A.I. and-,Prokopo,~., VK. Calculation of,,~,Forces .Acting on Spheres Supporting an Eccentrically Loaded Plate 36 5. Prokopov, V.K. Equilibrlum,6f a Hollow Cylinde-r of Finite Length Loaded Symmetrically About its Axis 43 Card 2/5 Dynamics and Strength of Machines (Cont.) 1076 6. Uflyand, Ya. S. Three-dimensional Problem of the Theory of Elasticity for an Infinite Body With a Plane Slit 6o 7. Solyanik-i-Krassa, K.V. Compression and Bending of Open Spherical Shells 71 OSCILLATIONS 8. Borkovskiy R.I.., Kats., A.M. and Prokopov., V.K. Theory of Linear fFrequehey:,)Filtering Accelero meters 83 9. Lurlye., A.I. Unsteady Motions in Quasi-linear Self- contained Oscillating Systems 98 10. Lurlye, A.I. and Osorin, V.I. Application of Extremal Chebyshev Polynomial to Synthesize the Mechanical Layout of a Vibrotransmittor Designed for Slowl~ Varyifig- Overloads 109 Card 3/ 5  Dynamics and Strength of 14achines (cont.) lo76 11. Pokrovskiy, V.V. Stands for Vibration and Impact Tests 128 12. Vasyutinskiy, S.B. and Nag6yenko, G.P. Design Diagrams and Basic Equations of Electrodynamic Vibrators 141 l3a Sorokov, S.A. Vibrations of a Circular Are Under Concentrated Load 154 AUTOMATIC CONTROL 14. Dolgolenko, Yu. V. Exact Determination of Partially Sliding Periodic Regimes in Relay-operated Control Systems 171 15. Troitskiy, V.A. Self-vibrations in Controlled Systems With Several Control Elements 201 Card 4/5 Dynamics and Strength of Machines (Cont.) lo76 16. Troitskiy, V.A. Stability o- Intermittent-control .L Systems With Two Pulse~ Elements 220 AVAILABLE: Library of Congress GO/ksv 1-27-59 Card 5/5  ROLIK, A.I.; KOSRVANETS, A.Te.; YAKOVLEEV, A.I. Study of thn operation of axial fans in the cooling system of high-speed PS motors. Energ. I ololitrotokh. prom. no.3,38--42 J1-S 163. (MIRA 16-10) 1. Kharlkovskly avlatsionnyy institut.  TRINAMIG, Ljubo, inz.; Koedy Dtmar, inz. problems of schools amd skilled vocational cadres for chemical industries and scientific research. Alm hem ind 239-257 1621.  VERESCAGIN, I.K. [Vereshchagin, I.K.]; KOSIA'CENKO, L.A. On avalanche-processas in electroluminescence of single ZnS-Cu crystals. 6bekhosl fiz zliurnal 13 no.205-88 163 ,. 1. State University, Chernov-tsy, U.S.S.R. '  -2 1-1-66 SOURCE CODE: PO/0046/65/010/011/066 ALL NK: 1/0668 AP6014465-. AUTH OR: Flor wski Tadeu -Fli rkovski,, T.; Kosiara; LnsD=j=K syara, A.; ko sz No Wa ___Mart~L-Va silewska,_ AMska, M~ 4_;11 ORG: Nuclear Engineering Institute, AGH,_Kr (InstyLut Techniki Jadrowej AGH) akQkL TITLE: Comparison of radioisoto .pe bremsst-rahlung sources/4r'excitation.of the characteristic radiation in elem~nti--oY-14-Te-s-s-EVan-oF-equal to Z less than or equal. to 50 SOURCE: Nukleonika, v.*10, no. 11, 1965$ 661-668 TOPIC-TAGS: bremsstrahlung,,ra&Loisotope,:titanium, zirconium, promethium, x ray ABSTRACT' Results of measuremeryLs for the determination of the detection efficiency of the characteristic ap of '.Light elenents excited by the three bremsstrahlung sources 3H/Vi, 3H/Zr alr 17pm/AL are described. The detection of characteristic x rays of elements, which have the atomic number lower than 20 was performed in the hydrogen and helium atmosphere, ~4at appreciably increases the total detection efficiency. The authors thank h~of,-Dr. L. Jurkiewica for valuable advice ana discus- sions ontbe carrying-out of the Measurementeas well as Dr, X.-OatrDweld for discoyer, Orig.art. hass 9 figures and 1 table.,(NA of the new type of proportional. (iounter. _j SUB CODE: IN 20 SUM DATE; ODD0064 ORIG REF3 001 OrH REF: 002 COM I /I  thiversal valve voltmeter. P-7, (Publict,.tion for amateur radio operators. Title waries: 'Lel"Ore 1915h, Radio Armtor. 11-Ionthly). warszavra, Poland. vol.5)- 7-o--T)--Ip-r-l955- ~~onthly list of East European ilcc,~ssions (EEAI), LC, Vol-9, n0-1, jan.1959. Uncl.  Y,,OSIA,RZ, E. Polish War Fleet in World War 11. Pt. 6. In the EnElish Channel and on American shores. P. 6. MORZE. (Liga 14orska) Warszawa. No* 4. Apr. 1956 SOURCE: MILL LC Vol. 5, No. 7, July 1956  KOSLUIZZI E. Polish 'i-hir Fleet in World. W:ir II. Pt. 7. The last year of war. (To be contd.) P. 6. I-TORZE. (Lii-,a Morska) Vol. 11, no. 6, June 1256 SOURCE: E-E-AL LC Vol. 5, No. 7, July 1956  "MM6 re 0 0 a titI I ~mm me us Is I ASO 1 351.W(438) skill 9144kh. (11w, dinlAw 54"'t.] NAtowill, see In-Miltu Nili,Pem 1040. 121 1, [A lig-+. B hbh~, 7.5 rufs. (Imcmink-w4. 00,3 14~'. 1'wr~ 2. No 9 ) DWH -An 'nal) 114,11.its'l de-wriplivc mildy rj the clilimts; #4 hil'.11 -sit-fa hw l1w jlw d PA- mm"lly mmi'l 1-1 lbr iwwly aripliml l'"Offy rj."ik-.6 to prmitii, Owni tiilh infirimWto at an ahl ii3 llivir mmmni;r aml nj CID 0 (nAltmriv., mw cTnTr 4"41 Ap"i. k. ir j.tj;jj,t ~,.J lilies 49 IM figlorrs m,1 labk~ a- Stv" i" 1.)th hai'h &nil FA;11.h. Ahl6j"t lfc~)dtqrl: Onto sp!!!!~ Potiew -If. R. stollit JZ J, A I -IWKITWO =- jj so- IfIcso wit Q.-V gin 63401 ow a- M 0 $01 0 Ile a 011 a I IS Is 9 a 0 3 a IF it it INS 94  KOSIBAI ALEKSANDER Czestosc szaty snieznej na Ziemiach Slaskiche Wroclaw, Naki. Wroclawskiego Tow. Naukowego, 1949$,, P. 90. SOUME: East European Accession List (EEAL) Librar y of Congress Vol. 5, no. 7,, August 1956.  0 11 U U v IS a 30 Id a is SIP to Is L K I a IL A A000 -tmp 04011.1-1 AM PIOP41*141 W092 elb i: MAR T51 00 ;;. set 23-11$I 'es Emit" P440111"0111111 WWWOU74:111 GOWACR 1111111111lat"1111YA [The -- CWjvpjspw Cfvr*A-, Lon&, 1949. '3 temporary can-t-1-17ft., 3 6ex.. 2 tatilleav 64 n4a,. 11-41M umnwwy p-511, MC-Sixive sowbio variations of tronive"ture and firmirkailok at %kintaw. Wrmbw and Derlin for 1831-190, berlin sho for 1740-194L Ily iaea-cop, vW 4an"dhon with sip2W& Water Winpaggirre Iss a mini-ve '00 00 r Ju.t after %W mat. and a I not min. Spring rWqK"bIe% Winter- I ""Mkry MIN. 1-111; berom so$ Summer lemperatum Ohows OW nwm of Ohio relation, bm"t xUWARM CMN! In fame pcr;w 000 A. COMOSt Wistera. mjkxivmrn grillier pnivWtation UMAIIY mmrs in COW vintem Sn" 11redhocs: SIM MY W,ld ties A I NJ - I L 4% ACTALLUNGICAL ZITCRATURE CLASUPOWIGN 0-11 1-7. -- --- 130W SIT'vil'. -, -- ' ---. - -- - ~__- 0- Got It 9- 81 S A b U AV I n 100 go's i7T: 0 flo  0 Go a G a *see see* as 9 0 It is is m 11 w it is a a ho As Is SO Is -A A-A-L-" Ax. 0. .4 1114 T/~ 4 MAR .90 00 jl~ ~00 00 'i =3V- 66 WaL ft Apps,. 48 robi. 00 000. EnsM momw P. K DW-DbZ6Ww; remot work am the " NO Of 6o, env6tass 16 0 - 990 Oft 10 VWY WO kvth And Its bONA1111 um 00 y"umaltOmw Tin %stow clopWas tk~zljvms to plow tomtors W b4baw km 9 004 isvid their drisowl at I%wvw tho Qmatwmry liwislium The therml as* IF 0 mumm tk Akm to tk blethowmama. miad this 00 commed modificitiom 1o &6 clircuistion. H-diov-- S-d Abolml. forts- Iz00 xoe '60 6i tfooo 1,0 04P 8i 00 1000 Is 0 4; 100 4il P 'It pA 0 0 0 a 41PT've, 00 0 0 0 As 66:1400660004141400 000901000000000000000Goo 00000000900009:9004 ~  3.11-210 KO -U*kowiderp Czestoso santy onlesuej na Zlemlnoh Sl"k1ch. ncy of snow cover over the Silesian Terri,017.) WrOclawski Towarayotwo Naukow4p, Praco, Ser. B., No. 21, 1949. 92 p.17 figs. 2 mapso 34 tableat 122 refs. MJ-EH# DLG-A detailed techr4c al and. atntiatical Btudy of many aspects of snow cover in Sdieaia-Dne of the best works of this kind published. The general appearance, formation, thermal conductivity radiation characteristics (solar radiation on surfaes and at different depths). outgoing radiation, t-erual balance of ground and Boil moisture under the snow cover atmospheric turbidity and heatbalance In lower levels above the snow cover, on" cover in relation to ecological, bioclimatic and transportation or commuoication ocnditionB, hydrological factors (snow melt and runciffand lastlym the Bources and nature of observational data used In this atpdy are discuseed.Detailed color chart*, analytical and statistical diagramn and tables and an excellent bibliography are Included. Subject Headings:1. Snow cha-r-a-4--r-1-41 cover 2. Snow characteristics 3. Silesia, Poland. M.R.  KOS 6 fl A_ 4,2-11~i 551.524.4: 551.584. (43~~ Kasiba, AhIsatider, ZapA-iienle plonowyth r6znic klimatyr-mych w przyzlemnM 'ay.- [Th( -.nflon vf vertical climatic differences in the lowest strata Meteorological Abst. wers - q'-1 ~ - "I fho aJmoqJ;hVrcJ Przt,,clqd i Hydrolagirzny, Roc_-nik, 4 No. 2 19st. fg., 3 tables. English summary p. 133-110. DYM-This is a comparatii-c anatlysts Feb. 195 '-2 of tempt rat ures at sta ndard lcvtIa 2 n, above grou nd level and at 5 cm heiszht. Thenwasure- Radiatiod and Temperature inents were made at the Institure of Meteorology and.Climatology of the ~V;~ckw University during 1949. Monthly and yearly values of: mean temperatures taken 3 times &-tily. averagc and abq)lute temperature minima and maxima, mean daily amplitude, high". t wid lowest daily mian temperature, as well as the number of days with characteristic temperature at both levels are tabulated and discussed. The ituthor emphasiz" the importance or tit M. tem- peraturv differences and the need of further investigations of the pbenommion with regard to agriculture. Subject Headings: 1. Vortical temperature 1prtidlent 2. Mmicroclimatollogy Tem;mture variations 4. Agricultural metearolop S. Plitsad.-A.M.P.  K 0 s S.1-39 55 I.SO6 (439) Meteorological Abat, 1' 9i a Alekmnder (ed.), Observacje dobowe we Wroclawitt. Observations Journal res rosc aw 1950. [Daily ob.,ourvations at Wroclaw, 1950.] AS'rodaw. Obsert2uYn I J~~ Vol- 5 NO- Alric"&-rii i Klininryter i. Prarr, No. 5:4-48, 19S2. 13 tabk,. In Pjlihh; lcl;q%ds and Jan. 1954 61111ittlarv (1). 59) in French. DWB - GrImplete obterviiii(mal date (thrvk-, limes daily) for Part I the ustial climmolol;ical elentents, incluging also visiwlity in(] bunshioe duration. Monthly Sumolafics giv- .0611 111-Viation from simm. Wealher prm-m4is iii 1950 art! reviewed in detail, Meteorological Subjerl Headings: 1. QhatrvdIqnaLdxts I. Wroclaw, Poland.-A.A. ObServations and 'Instruments   K0�IBA. A, "Problem of Moisture Balance-in Silesia in the Light, of Variations of Relative Hunidity." P. 58, (PRZ'tZLAD MOTEORCLOGIC'"'Iff I II-IRC-LCGX NY, Vol. 5, No. 3/4, 1952. Warszawa, Poland.) SO: Monthly List of East European Aecessions, (EEAL), LC, Vol. 3, No. 12? Dec. 1954, Uncl.  YOSiE.,-.. .". "Conditions of the ol' wricli-Is fornis -f crystals in atmos ':`!~elric sn~',:. 11 Gazetf; 01--emiat-jra. 'L;rszuwvI lrr~,i 6, :To 12, Dec. 7-;. 1 I 1~ SD: FLstern Exropeon I-!ccessions List, Vol 3, I:o 10, Oct 19~,41 L-11). of Coni-Teo's  XOSIBA, ALEKSANDER. Opadly sninne na Slash, Wmclaw, Panstwowe Wydawn, Naukowe, 1954. 40 pe (Wroclawakie Towarzyrtwo Naukowe. Vaco. Seris B. nr. 71,) (Snowfall in Silesia. fold, maps , diagra.. bibl., tables) So. East Far4ean Pcoessions List Vol. 5, no. 1, Jan. 1956  Y.C`.. 11' Y )A, A. "The S-owfa2ls in Silesia", P. 136, (ACTA GTC-.TIY; 1CA PUCTICA, W . 21 1'10- 3p 19"-41 Ilarsaw, Polard) S G -. 'tIontInly List of Fast Furopear Accessions (!--'AL), LC, VC)II. / ,-, !. 11 ,.* Ic ~ y !arch 1955, Uncl.  Tyi $A82 im- .2 rkg ALTAM M- "Pi 164 dati, NOTO kli tat ;G*n Or StAtm n); 1 resp mh t 6&f aPpe ras e iskyrAl Wr' .01 1, Affitude Almas ox pttipl Won 4~ XXI  XOSIBA, A. Nlq)rovinp, the survoying of PvApcritlon In Polmid". p. 12, (r-AZETA OBSERWATORA Vol. 7. No. 1, 1953 Published 19.11:4. War~,zawa. Poland) SO: Monthl~ List of MAst Paropesm Accessions. (3?AL)o LC. Vol, 4, No. 4, A)pp 1955. Uncl.   YCKB'~, ~!. I" z mospriere the :;c- Relationshir, between the occurrence of. cryst! ls o' ice in tkc Lt! curence of storms." ~- .-. .. ..I I l') 1, "' , n ') Gazet-a Obcervatora, - T 17 ',f. 14-1'arszmm~ Jol 7, No 3, Xit r.. SO: Eastern European Accessions List, Vol 3, 110 19, Oct 1954, Lib. of Congress  KOSIBA, Aleksander KOSIBA, Aleksander: "Dzialalnosci naukowe Euginiusza Romera v dzied-Anie Klimatologii " Nugentinz Romer's scientific Activities in Climatology). Czasopismo geograficzne.- Warsaw, 26 (1/2): 76-125, 1955.