SCIENTIFIC ABSTRACT ASTRAKHANTSEV, N.Y. - ASTREYEVA, O. M.

LEVITIPOV, S.D., dotsent; POLMOV, G.V,, inzzh.~ ASTRAKROTSEV, N.Ya.j. i1ah.; POGORELOV, G.M., inzh. '--` -~'- ` -, - - ~ Recuperative braking on comercial electric locomotives in open- pit minee,. Izv. vys. uchebo zavo; goro zhurc 6 no.4;122-1,15 163. (141R0. 16 -.7) 1. Chelyebinukiy politeklmicheskiy institut. Rekomendovam kafedroy ele.'Iftroprivoda i av-tomatizateii OmyshILennykh ustanovok. (Mine railroads--Brake 85r  ASTRAKHARMT, . S. tj.: Wster Tech. Sci (dioE) -- "Inveatigation of the proces- Bea of liquidating submIemporosity In powder matorialq and the nppearance of this porosity in cortain alloys, using the nothod of X-ray dispernion at sm,11 angles". Moscow, 1.958. 1.7 pp (Min Higher Educ USSR, Moaccv Oraer of' Labor Red Banner InE:t of Steal Ira 1. V. Stalin, Chair of -1joentgenography and the Physica of Metals), 120 copies M, No 3~ 1959, 109)  .-.'AUTHORS: I.strakhantsev-, Umanskiy, Ya, S. SO-ill 63- 5a- 3-37/49 TITLE: The 1,11icroporosity of Beryllj*7an Ox?~rr-ilwwlzr,~lli,rc)poristostI poroshka okisi berilliya) PERIODICAL. Nauchnyye do:.,lady vysshey sh,'coly. ',1eta1lurL;iYa, 5 ITr ,% 3, pp 226 - 27o (UssR) ABS"LTIACT: BBvylliu-M oxide produced in 1;he thermal decompositi:)n o:,,' complex compound3 iL3 characterized by the low bulk wiiightv ard the inferior pressing properties. The prosent paper deals with the inverti~-,atiOn Of the CaliseS Of VIO deter-:.oratioii of the pressin,:: propevties of bery11111M o:i:ide. Beryllium oxide with a bulk lriei,~ht of 0,107 Ir/ / CM iE pressed into briquets at it pressare of I - 1,5 tj Icr,12. It was fow-,d that the amount of precsure appliee. does not change the properties of the presced articles. The micropuro3ity of' the beryllium oxide sample was in- veztijated as dependent on the sintcrin~,, tomperature. The nzlin cause for -the inferior pressin,:~ and the low bulh weight of ber,,rllium oxide powler is the hi,~h microporosity of the sample. The decrease cf the r~:icropores beCins at t(--T-.iperatures of 750 in - Card 1/2 J. 0 8000 furthei creases to  r TI,e ."licroporo.sity of Bcrylliui-i Oxide Powder SOV11 6,,- 58 - 3-3;7/49 12500 - 13000, and practically ends at 1600'. An incronse of the density of boryllim,) oxide does not only brini,- abDut, aldecrepse of the microporosity but also a chaan,-e of the grain size. '7!ie prope-ties of the initial beryllium were investi.,7ated 1),i means of a small-anCle x-ray analysis. There are 4 figures, 2 tables, and 4 refer- erces, .-Aich are Soviet. A S S 0 C10,1 Iosl:ovi,~:i~ inotitut otali (IMoc,,,cow Ste-A Institute) S UB 111 "IT E DO~tober 1, 1957 Card 2/2  SOV/149-58-6-13/19 'AUTHORS: and Umanskiy, Ya.S. TITIZ: Investigation of Microporosit-Y in Certain Metalis, Alloys and Oxide Powders by the Method of Small-angle ',[-:vay Scatterii4; (Issledovaniye mikroporistosti v nekotorykh metallakh, splavakh i lmoshkakh okislov metodom malou- gollnogo ras3eyaniya rezitgenovskikh luchey) PERIODICAL: Izvesl;iya Vysshikh Uchebgykh Zavedeniy, Tsvetnaya Metallurgija, 1958, Nr 6) PP 115 - 125 (USSR) ABSTRACT. The authors studied the mechenism pf the closure of microporos during heating of a number of refractory oxi4s.and of the formation of pores durin' annealing 9 ;)-tVposited nickel. and during distillation of _,eleotr, of zinc fTon brass. The method of small-angle :K-ray scattering was used and the calculations were based on the formula given by Gui~iqr and Fournet (Ref 5): K RO Nn~e (1) where: intensity of X-rays scattered at low angles Cardl/9 by particles with the effective size Ro;  SOV/149-58-6-13/19 Investigation of Microporosity in Certain Metals, Alloys ani Oxide Powders by the hethod of Small-angle X-ray Scattering N - the nunber of sub-microscopic non-homogeneit:Les participating in, the small-amgle scattering; n - the difference between the electron densities of the non-homogeneoud domains and of -&e matrix; K = 2Tr(wV (~o - angle of scattering, % - X-ray wavelength). Tangent of the angle of the slope of the straight line-: Ig TPIrf, = f (~o2) equal to a = 5.715 R02A:2 was used for calculating R fron the formula: Ro = A g IPMY 2 ~O in which, for the experimental conditions employed, A .Lual to 1 700. 7as e- The collimation correction vras introduced in the calculationj3 by the method used by Filir?ovi(b.h (Ref 8), i.e. by jDeans of graphs (reproduced Card2/9  SOV/149-58-6-13/19 Investigation of Nicroporosity in Certain Metals, Alloys and Oxide Powdjrs by the Method of Small-Wigle X-ray Scattering ir Figure 1) showing the actual size (1) of the pores, Rc~ , as a fiuiction of the calculated value R,),,,, . Viese graphs were plotted for Ho, Cu and Fo radiation 0;igures 1, 11.1 6 and B, respectively), graphs 1, 2 and correspond-'Lng to the ratio 110/D equal to O.OOlr,1, 0.0008 and 0..0004, respectively, where 2X, - the aridth of the primary X-ray beam, D is the distance between the specimen and the radiation intensity counter. In the present investigation Cu radiation was mostly used with Xo/D = 0.0006 . Before proceedLing to study the effect of heating on the microporosity of A120, B20 and MgO powders, the authors proved that partioles of these substances in the 1-5 - :5 11 size range produced the same small-angle X-ray pattern. and that while the size of the original blocks of MgO and BeO was the same as that of the non- homogeneity domainB, the rate of growth on heating was Ca.-d3/9 faster in -the former than in the latter case (the effect  SOV/1-49-58-6-13/19 investigation of Microporosity in Certldn Mptals, Alloyq-and, Oxide Powders by the Mothod of Small-wigle,:t-ray Scattering of the tenpe.,cature on the si:,,e, of BeO 9nd MgO powders is shown in Table 1). They proved also by means-of pyk- nometriemeasurements the presence of micropores in the interior of single grains o f these oxides, thus showing that the small-angle scattering produced 'by the investigated substances wits, in fact, due to microporosity only. The composition of the experimental powders is given in Table 2 which shows E11SO the optimum thickness (mm) of the specimens (converted to compact materials). The powders werS heated in air, at temperatures ranging from 500 to i 900 C. After heatinE., specimens of the optimum thickness were prepared 'by I)resS:Lnge The ionisation curves of the MgO powder heated for 15 min, at 1. - 800, 2 - 1 000 3 - 1 300 and 4 - 1 500 C &re shown in Figi~xe ~ (mono- chrowatic Cu radiation was used - speed of the counter 0.5 /min., speed of '.-.he filin 9 600 mm/h,, ~D = 5), Figure 3 shows the var;ation of the average size, Ro of the micropores (in A) and of the porosity, tj (in %) Card4/9 Qf Qx~dqe boated f9.r ~45 lain at, ya-r-iQus tomYeratuzvc~ ;  i5C,V/149-58-6-13/19 ',-Investigation of NJ.oroporosity in Oertaim Metals, Alloys and. ....Oxide Powders by the Method of Hmall-wae;le X-ray Scattering A,12'D3; b) BeO (1 - Yei 2 - CUKCX, MOK Ka a radiation)- o) #gO. The affect of tho duration of heating (m1ZL) on 0 of the :investigated oxides treated at a) - 1300 and b) - 800 'DO, is shown in Figure 4. Finally, thei effect of temperature on the value of the rqtio Nkp/T[m , where Nkp Rnd Nm arev respectively, the numbers -Df large and smal'.1 pores in powders heated for 15 min, is illustrated in Figiwe 5.. Commenting on their results, the authors state that microporc-sit7 in oxidei powders obtained by reduction or dissociation of more complex mompounds ama be attributed, to the fact that they are obtained at eomparatively low temperatures (30-40% of their melting poiat8) at which the nobility of the atoms in the lattice is low. For this reai;on, when compounds of the MgCo3 type dissociate, the evolved gas is driven off at a rate faster than that at wh:'.ch the crystal lattice of the oxide is formed. As a rBiiult, voids and lattice Card5/9 vacancies axe present in the particles of oxide. Since  SOV/149-58-6-13/'io Investigation of Microporosity in Certain Metals~ Alloys and Oxide Powders by the blethod of Small-an3le X-ray Scattering the conc elLt I-Elt ions of vacancies near the large and small microporeE! zu-e different, a diffusion current should develop (Ref 11) resulting in -the growth of the -19j,ge pores and elimination of the small ones, which has been confirmed bj the results of the present work. In the case of electro-deposited nickel, the lat*Acle irregularities are caused by excess atoms or by vacant lattice sites and are referred to (Ref 12) as "positive" and "negative" dislocations. When electrolytic nickel is annealed, coalescence of the vacancies should result in the formation of, at first, submicroscopic and, later, microscopic pores. Such an effect has been repo-vted (Ref 13) but,, since there was, a possibility that t 'he observed nacroporosity was due to coalescence of crevices and voids formed during quenching or deformation, further study of this problem was undertaken by the present authors. The experimental X-ray specimens consisted of lajers of Ni (5 - ? )i thick) electro-doposited on both sides of copper supports (22 - 25 ), thick) from an electrolyte Card6/9  .'-OV/149-58-6,-13/19 .Investigation of Mioroporosity in Certain Metals, Alloys &ad Oxide Powders by tho Method of Small-a.-agle X-ray Scattering treatment which indicated ra:pid growth of the po.res. Since similar e:!fe(,-ts were obtained on Ni. specimens de:posited on nickel supports and on test -Dieces consisting of the electro- deposited ls.yers detached froa the supports, it was con- cluded thitt the main cause of the formation of pores during annealing of electro-deposited nickel is the relaxation of the lattice distortions (coalescence of vacan-.ies). In the last atage of'the investigation the formation of poreEl in brass heated in vacuo was studiel. Cold-rollad specimezu3 (30-35 iL thick) of commercial quality brass L-62 were used for the mea sure ment s Thg results a-re plotted ij3. Figure ? showing (on the leit) Ro as a function of _C .1/2 1 aj:Ld porosity fj , (%) as a function of for specimens annealed in vacuo at 1 - 500~ 2 - 600, 3 ?00 a.nd 4 - BOO 0. It was concluded that when a volatile constituciat is distilled off from an alloy, the formation of the poxes is a diffusion process even in the early stages of the distillettion and. that at low temperatures Card8/9 the numbox of the pores can iricrease without an increase of their size due to coaleseezice.  3OV/149-58-6-13/19 Investigation of MicroporQuity -..n Certaj.n Metals, Alloys and, Oxide Powders by the Method of 41)mall-anf;le X-ray Scattering There are r? figures, 2 tables and 15 references, 1.2 of which are Soviet, 2 English eaid 1 French. ASSOCIATION; Moskovskiy institut stali. Kafedra metallofiziki i rentgenografii (Moscow -.1'.nstitute of Steel. Chair of Metal Pbvsics and Radiography) ammimm: June 23, 1958 Card 9/9  89663 .1110 s,/149/16 111000A0210121017 A006/AO01 AUTHORSt Astrakhantsev,, SAP 14ozzhukhin, Ye.I., Umanskiy, Ya.S. TITIEt Investigation of Sintered Alloys on Metallic NiAl Compoiuid Base PERIODICALs Izvest:Lya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, 19611, No. 2, PP. 110 -- 115 TEXT: The authors developed a technolc-gy for obtaining Ni-Al a:1.loys by 1~owder metallurgy m~qthods, and investigated thei properties of the allDyn cbtained. Alloys of the single-phase NiAl and the bi-phaf;e NiAl-Ni 3Al range were atudied. The technology employed was different from previous methods (Ref. 5, (5) wher-a +-h--- alloys had been prepared from powders whose ccniposition corresponded 'to that of the alloys. In the present Investigetion the E-lloys were prcduced from Ni-Al ad- dition alloys and nickel powder, whereby the Al content in the addition alloy ex- ceeded that in the alloy. The addition alloys were melted in high-froq%tency induc.. tion furnaces in a niagnss~te crucible. The exreriments were made with four single.. phase alloys containing Al (in atomic %)t 1) - 52.5; 2) - 5o; 3) - 4t~j 4) - 4o. Alloy I was a solid solutio'n of-Al subtraztion in NiAl, allcy 2 corrosponded to the NiAl compound of stoichiometric domposlti(nr~ alloYS3 and 4 were solid solutions Card 1/5  89663 8/149/61/000/0D2/012/017 A006/AO01 Investigation of Sintered Alloys on Metallic MAI Compound Base of Ni in NiAl (alloy 4 is ~alose to -he boundary of Ni soclubIlity in Ni Pil) Alloys of the bi-phase NiAl-Ni3AI range were also stuc[:Led,, containing Al (welgh~*%)t 5) - 20; 6) - 19.5; and 7) - 17.5. The addil;:.on all 5Y and n1ckel powder were mixed in alcohol for T? ho,ars and preesed under 3 Vo.,~ pressure. Sintering was performed in a T~8 -2 (TVV-2) vacuum furnace mainly in a "hydrogen" vacuum which was maintained at :? 4 - 5.10-3 mm HE; during the rise of temperature and the sintering temperature. To produce specimens of minimim porosIty sinterlng was car- ried out at maximum temperatures which were exporimentall7 determined for each al- loy (1,490 - 1,50000 for alloy 1; 1,510 - 1,5.'..(,` for alloy 2; 1,490 - 1,5000 for alloy 3; and 1,430 - i.,4400C for alloy 4). R(dative densities of pressod briquats and sintered specimens are given in Teble 1. The sintered alloys were subjected to bending and break arid tested as to their micizohardness and enduranci atrength. Results are given in Figures 2, 3, 4. It was fcund that the bending strength of single-phase NiAl alloys at room temperature increased with a higher Makel con- tent in the NiAl compovnd; maximum strength in offered by an alloy whiall is on the boundary of the sirgle-phase NiAl and the bi-phase NiAl+Ni3AI rangf~. At high temperatures, the poorest, istrength characteris';ics are shown by alloys being near the boundary of the single-phase NiAl range, from t-he nickel and the aluminum side ,a  89663 S/14q61'/W)/W2/012/Oi7 A 006/ 001 Investigation of Sintered Alloys on Metall ic NiAl Compound Base 0 Table 1: Relati ve densities of pressed and aintered specimens, volumotric and linear shrinkage for single-phas e alloys After pressing After sinterlhg Alloy Specific Spec. Relative Spec, I Spec. Relative Volume- Linear 5 weight weight density weight Iweight density tric shrinkage of bri- of com- of.bri- of ape- of com % shrink.- % quet 23 pact quets % oime 313 pact age g/ charge g/cm aLloy materi- Imater- al 9LOM3 I&/CM3 1 3,75 5,11 .5 72,8 5,2 15,65 30 192,5 10,5 2 4,05 5,20 78,0 5.5 5,93 93,0 28 8,5 3 4,18 5,55 75,5 5 9 13 20 95,0 30 9,5 4 4,25 5,80 73,0 4 6: 6 50 98,5 35 9,0 Card 3/5  X,~ OA~ rA I 89663 s/149~SI/OOOA02/012/017 A006/ 001 lnvestiga~ion of Sbiteired Alloys on Metallic WIAl Compound Base 4C Figure 21 Figure 3t Dependenoe of strength during bending Miarchardness of sintered single-phase (for 200C) from the composition of sin- NiAl alloys tered alloys obtained in -the pr*sent Investigation (1) and in -the study de- .45 scribed in Ref NIAI 50 21 6,0 AT to % is A % Card 4/5 ------ Mill 01 fflwlqm~= W-11w  89663 V002/012/017 S "rAOO~M N6 Investigation of Sintered Alloys on Metallio K M Compound Base Pigure 4t AV Strength of NiAl alloys during stretohing (5 14,/mm2 load) for 8000C (1) and 8500C (2). 75 There are 2 tables, 4 figures and-:12 referenoect 4 Soviet and 8 non-Soviet. 40 - k. 20 - 0 wk7R~ f? o4 AV ASSOCIATION: Moskavskiy institut stali (Mosow Steel Institute). Kafedra rent- genografti (Department of Iloentgonography) SUBMITM: April. 29, 1-960 Card 5/5  1 2 9/0 1 Ut'rO/CC! -,/() I It/ 0 16 I itt" 14 1 q 1.~ r nitio \,A,,S it K It h1114k It 'I, r I.,, it Ihimicift tit' DILLIUSIOLAVO!"OSItY -'nn Nichrorme Alloy fin 1ho Sinterin,~4 ot Nickel anti Chromium ilowdor.-i J'. It vO I( 1 1. 1 rtvcd vvt ~ e I termi.chemkova obrabotka mel:allov, 4-,01, iw 7, up 5.-Vt i r, :4tutiyinF. the process of sintering ot' nickel and h um i. h- mr! liorti di Pc:)% er ed some u nusuaJ -. hangos o F 1:he lat t ce w-r ~ofi ai I It i. it It it 1, e o I t h o 1 1 n e m o it r a y d.i VI rat t I on pa t t erns o I he t_1 I C VXVOM-~ ;X' r I. h v , n v es t i x a t iL c i n Iclit.4 dengi t I tt!j I jjprcsj t Les IQ .,L 9 . -15 - 5V and wert virop,trecl by coLd rre!~!-tnm.. The spevimenm wore II It c I* ttd , it it hirtir c, sr F, n.1i t v P_ LAm a t.11 ~) 0f'or 8 hou I- A .. I, IV (11 tLtACtI.On ~Iati:f-rns ucre inade using ii. inolyticlunum -eferenve F!t;mdarl with :,ippor radiatAfin fhe l:kttjce 1,erjo I wix-j calculated "rom tit(. 1:111z 0,~A, It %-,t; foutw that dvirtn~- Slntk-i ine thu ~a%.L,ce pey ud d-id ov~,t ch-ringe monoxonu.,isly Wit -in -jumj)S f !g. I the iop(:nderice. of' tit- lattive pu-r,od, ... of sintered ii-ar-i 1/b  irt? luen%.e vt [)I I fugi or Porosity V.129/61/000/0 7/01."/1)1b !f 7 3 /!~. r).3.5 n-, ,hrcirik, on the. ~qtnterinsc time, hotirs.. for the following initial 1) er i ct d % - r t) - vI -Eli - 21)";, curve '~; - 1,1,0/ , curve 3 - 40- r I ng t kt,i &t I. brce hours of s-Lnter in g th(- mo.yima anti mvima of t1ir pv~r~Ai3cL6 did not coiii(ide J%3r specimens. w-1-th ,mioas 0 1 0 A'. ~ I f, It ..tw ~,, %, ( r, dur i ng t lie I a t p r siag o -4 o C % I n t er i tig t hey a t IE- 3y 111 111 0 nok) -i I o 7, 111 1 lie sp ec ~ Inen s "I lie I v v s a m I III i I ar ! h-inge in Lno h1m r%ng nt the Isnes on the K- ray di f t rac T ion pvttprnv~ thc I nc~ ~,rv ti~tirrccl or sharp right ip to tim division of the K~i d ou k).1 Ilia F:harp linem corresrond to larKer lAtt LLt p F. 2. 1 os '.Wk 1.1hCTIOInena were obqer-ved Ly (so I- ol I k , He' - I %,1110111yy ~ dolt lady vySslicy 511kc IV , ".utel lurxiy~t, No . 2. I during sinti~t :tig of (.unt.co atl.oy, 'the tic uhunumenit indicitte 1111tt sxwe.-.n.g of niek,~,l and chronILAIIII yowders does not ~llangc monotonously thr uniA"ormity of' the solid solution, f-ar. k,,c expl fA i ned nn thp Las:is at' resul-ta of tbe study o1 the iormation and grawth v,,.' sub.-microporosities in the nicheome alloy. I)vinsity -w od t n .-i n a 1 Lay c ( a 1% im I I it r ~ ompo,~ w I I on J r III I i n1ir the d ! s i i 11a t 3. On I c hrom I tim i ii vac uum a t. a r o u.4 t cinti ei a ti re s. Vh v d%mvnt-,i(mL- c-l' t1w sub-micropoves upri! by J.11."'VIA.U: t he h-w ancic ,,: t, I t v Lr L n p: n !X-rny!f. I g., 11 WA t 11 UL (-.s tI I V i *.,-I - , ~_. / ()  Influence of DiffU,IliO'A'L Porosity ... ViLt)/61/000/007/0-1 li/o16 E073A535 uzied for studying the loir angle scattering (1 - X-ray tube, 2 - monochromatorv 3 - specimen, 11 - coLlimator, 5 - (ieigor- Muller counter, 6 - cu~unting circuit). It wits found that sub- Microscopic pores of i size. of several ~Iundred Azigstrom form in the nichrome during the process of evap-Dration of chromium. Fi,(t-3 shows the dependen'ce (if the average pore dimensions, it.), k, and of the total porosity (loss in weight), A P, mg, in nichronic subjected to vacuum evaporation at varit)us temperatures a!; a function of time, min for the sinti~ring tem1wrixtures 1200~C (plot a) and 1* 350C (plot 6). The dimensions of the sub-micropores also &A not change mono tonou -,; ly; the lower the evaporation temperature the larger will be the nuriber of extremal points on the curvo R f (,/-T 'I'he observed phenomenon can be C1 explained only by the healing of the formed sub-micropores, since the maximum dimensxon of "lie pores was considerably below 1000 Healing proceeds as a result of chromiurs difftision; its partiaL diffusion coefficient in nichrome is considerably higher than the diffusion coeffici*i~nt of nickel (Ref.4: S. Dashman. 116cicittific fundamentals Of Val'.1111M. engineering", RuSsian translation, 195u). (;ard 3/6  Influunco of Diffuiiion. porosity ... S/129/61/000/007/011i/o16 E0 7 VE 5 3 5 In this case healing is posiiible if the flow of chromium atoms to the pore is larger than the flow of vacancies. After the Pores have healed, sections will remain which aro chromium enriched and the in.ternnI flow of vacam-.ties vill coase. Che -ation non-uniformLtici lv;~ds to blurrdng of j)pearancc of conc-enti., the lines on the X.-ray pattern and to a reduction of the lattice eriod. By nzeans of low angle scattering it is also possible to p detect the decreas,c in the pore dimensions. Then, the chror.,iium concentration begins to equaliza in the alloy and the com;ontra- tion of vacancies bill increase; this ju-nduces a narrowing of tho lines on the j)eL)yc paltern. Xa increa:ie in the concentration of the vacancies leads to the formation of new and growth of remaining pores. '.the concentration of vacaticies will decrease in jumps and the process of haalin,4 of the pores will start afresh. Thi,% process appears to continue until it certain quantity oi- Chromium is evaporated from the allo,(. Thera are 3 figuron and Ii.references: 3 Soviet and I a Russian trikislation. ASSOCIATION: Moskovskiy i-xistitut stali (Moscow 51~eal-'Ifistitkltc) Card 4/6  /7'~S /19 /V 12H2M- =KTY S - 'P ., PRODYWC, N. F., AS SEV -S.--M" XARPUKRIN, V. I., SKWORM-07, V. V., ffIXDLAWM4V. A., "Investigation of.Ceitain Processes in U02 Dispersed Ln a Matrix" Report subnitted for the Conference on Mv Nuclear Materials Technology including Non-Metallic Pual Elemtnta (IAY-A), Prague, 1-5 Julv 1963  NO I 8;(~q 66 `_ _EPF( GGfIJL n ACC NPt AT5023789 SOURCE CODEI; UR/0000/62/0001(100,/0121/0116 AUTHOR: __AstrakhanCsevL_S,, M.; Konno ,_Iru. 1. ORG: none 14 b TITLE: Effect of neutron irradiat~gn~cia inhomogeneous solLid solutiov'15 SOURCEs er~t a Deystviye Y;idernykh izlucheniy nit mat :~Y (The effect of nuclear radiation on materi 1 .); doklady sovoshchaniya,, "Ja _6 Moscow# lzd-,vo AN 3SSR, 1962, 121-126 TOPIC TAGSt nickel base alloy, chromium containing alloy, alloy structure, alloyjLlectric resLii_tf-vt neutron i U~.:neutron Irradiation, irradiation effec.1.1, /K.h,'!ONL80 alloy,"- 14 ABSTRACT% *_Kh20Ni3Dkn1.-_kel-base alloy (21% Cr, 032% TO tolled with an 80Z reduction 'to 0.1-MM thick strip was irradiated with an inte- grated flux of 1 X 1,D).7_1.1~20 thermlkl neutrons per cm2 at about 1001L The irradiaition-Laducad changes in the strueture of the alloy in rolledo annealedo and slowl,~ cooled, a4d annealed and quenched con- ditions weria then invostiga-~ed by electrical venistivity measurementse The affect of irradiation oa the Kh2-DHL8ealloy became noticeable wi.th an integrated irrediatiors dooe, greater than I X 1017 n/cm2., The Cord 1/ 2 (4  L 8 6-9 ACC NRt AT5023789 resistivity of the alloy trradiated afteir annealing decreaHud 42 as the irradiation dos;,e increased to 1.4 x 1020 n/Cm2, probably because of the tranaLtIon of the alloy from an inhomogeneous (K-stace) to a more homogeneous cc~ndiltion during irradiation. Rolled alloys and annealed and quenched alloys, I-e.q allciys in which the K--state was absent or only partially resent before.irradiation, exhibited dif- p ferent behavior. Increasing the irradintion dose from 1 :( 1017 to 1.6 x 1020 n1cm2 in.creased the resiativl,ty of the rolled alloy by 10% and that' of the quenched elloy by 3E. This behavior of the KhMiW-alloy during irradiation was rirobably associated with a decreasing hamogensity ofthe alloy, L.zi., with the appearance of the K-,state, and was analogous to the behavior of ordering aUoys under irradiation. Annealing of' the irradiated Kh20Ni8O alloy Ln all the investigated conditionti increased the resistivity to a val~ue very close to that preceding irradiation. An,nealing also brouillit about alloy equLlibrium by promoting the forzation of the K-sutte. Thus, on the basis of the obtaLued data on the annealing of the Kh20Ni8O alloy, it can be assumed that neutron irradLation of Inhoriogeneous solid solutions resulted not so much in the perfection of the crystal lattice as in the pro-mation of the prc;cDoses in it, [HS) SUB CODE: MM, SS/ SUEM DATE: 18Aug(121 ORIG REP: 0111 OTH RE F s 0011 jW Card 2  --------- - -66 -2/94M )/EWP(t)/E'AA(h) U000. L 2667o JD 76-3-8-476-3 67T! _7M"7R_1AP6O1Oh04 SOURCS )DE% UR/0'126/66/02f/_56j' AUTHORSa Astrakha Yu, Ya, n bev. SO ?.I*.; J~~Loir, Yuo I Konakhovich ORG: none ITLE; Neutron diffraction study of pcayerystclUne nichrome alloy SOURGE: Fizika Retallov i metallovelenlye, v, 21o no. 3., 1966j, 384-38.1 TOPIC TAGS., nickel, alloy- chromium aliDy. nicbroys alloy, neutron diffrai*,;tjon electide restitin(z, Pobrerl,rstal ABSTRACT: A neutron diffraction study of annealal and cold worked pplycrystalline nichrome alloy.(CD.ntaining 22 at. wt % 01r) was car-ried out* The alectrical resistan0i of the specimens was also detarmined. ii schemaU;~ of the neutron diffraotometer is 4 nental rosults are tabulated and are graphically sununarized. -presented,, and tho exp irt (see Fig* I)* The nerdra'a 11ij!fraotion ttern ekiiibited superstructural Ularima nz, the existence of wbich was corresponding to the f=z%tion of antipltse domak first suggested by B. G. li-vaUts, 0. A. RymashevAiys and N. P. Kosyreva (.Izv* vuzo,%,, 'Chernaya vo. 5).(613mvering,viks found to lead to an or6lering of the donains after the Hi, tir type, The authors thank No F, Fravdyuk for evoluation of the experimentia rosutts" Card UDC 1 539 129R_i~5 8.  U1 F! I PH ilRq MIAW I pi" V11RUP.-OklirMi"M E A PrA I P-;,t-;XF 1.1--!~~~.-~~.4&"Mtar,~t,~~lly.;r?~F.M W;;QffMKA RZ I VAZP~; "I RM I P. -I iN, IV I 1.11",~ 111 2WO-66 Acc NR, AP 10 0,600 - Poo F-i& Nautro n diffra c;t~ jolt A700 Patterns 'of' t1le aJJCJy N, + 22 at.',.w, t. % Or betibie (a), e Ind it N, 400 af ter (b) lei ac lie vin X-stato S b, 17 Jr J 3 jJ ft/ Aw IV ~?,;0-17- c all 4.) of s6atiie:~   -&STRAKHANTSEVv V. I. Machine for washing laboratory vensels. lab. delo 7 n~-3;5' -56 Mr 161, (MHA 1. Kafedra farmakologii Moskovokoy veterinarno akademii. (IABORATORIES--APPARATUS AND SUPPLIEST (WASHING MACHINEll)  .ASTF-AKRANTSEV, V. I. and GORIEV, E. I,, (Moscow Veterinary Academy) 4---- "Tetracycline antibiotics in the organism of animals and birds" Veterinariya, vol. 39, no, 5, May 1562 P- 73  ASPL~,',KJIANTSEV, V. I. ASTFAKHLITSEV, V. I.- "Mutual Connection Between the Rated Flow Velocit.; and Intensity of Deformation of the Beds of Channels." Acad Sci USSR, Eastern Siberia Brandh, Irkutsk, 195-5 (DissertEltions For Derme of Candidate of Technical Sciences) SO: Knizhnava Leto2is, INIct. 26, June 1955, Moscor,  124-11-12703 Translation from: Re ferativnyy Zhurnal, Mckhanika, 1957, Nr. I I, p 54 (USSR) AUTE~bR: Astrakhanisev, V, I. TITLE: Problems in the Calculation of Erodible Channel Beds. (Nekotoryye voprosy rascheta razm,fvayemykh rysel kanalov) PERIODICAL: Tr. Aralo-Kaspiysk, kompleksnoy ekspeditsii A. N. SSSR, 1956, Nr 7, pp 70-78. ABSTRACT: An evaluation of the problems and tlie stability characteristics of a river bed is made, together with a flassification of deposits; a number of suggestions are made relative to the suitability of a stream for transportation. Bibliography; 19 references. Card 1/1  ASTRAIMNTISEV V. I., G.V. LOPATUI-- P- S KJZJNI and V. S. MFZEfn,")OV P I . . Delivered a report on questions of hydrologIcal partitioning. rePOrt Presented at IN- 3rd A1.1-ttalon Jbrd"JoEjc&j COngx'eFig, 7-17 Cet 1957, T~eningraa. tlzv. Ak Hauk SSO, ser geogref., 3, YP3-9s 153)  ASTnMNTSEV, V.I. Principlos under13,ing the division of Siberia and the Far last into h.vdrolog'ic regiDWI. Izv. Sib. otd,, AN SSSR no.2:99-108 158. (MIRA 11:9) 1. Von toohno-Si tirijkly filial AN S:3SR. (Siberia-H.-rilrology)  Ccoi-dir,tion of hydrorl,eological i).-r stigc~tiions. Ge-ol. I L;00:Ciz. lic. C:121 123 16% J  ASTRAKHANTSEV,, V.1. Hydrogeologic and engineering geology problems in Siberia and the Far FAat, Geoloi geoMz. no.2-026-127 162. WIRA 15 :4) (Siberia-Water., 11ndergrouat-Congresses) (Siberia-Enginewing geolofly--Congresses)  ASTRAHANTSEV,-Y.I.; PINNEKER, Ye.V. 77-.ird Conference on the Underground Waters and Engineering Geology of Siberia and the Far East. Sov.geol. 5 no.4:143-1/+6 Ap 162. (MIRA 15:4) 1. Vostc)chno-Sibirskiy geologicheskiy institut. (Siberia-Witer,, Underground-Congresses) (Siberia-Engimering gcology-:-Congressan)  TRAKHA TxAuQxJx4 ZOIWO B.V. , otv.red.; ZAVOZINI, L.F., red.; LAUT, V.G. , tekhn.red. (Angara.emd its basin; outlino,) of the hydrology] Angara I *a baasaiV~' drologicheakii ochoirk. Moskva, Izd-vo Akad. nauk rxi SSSR. 1%2. 90 p. (Akademiijit nank SSSR. Sibirskc* otdo1emia. Vostochno-Sibir3kii geologichbakLL institut. Trudy, na.12). 1~ (MIRA 15:W~ (Ang*ra Valley-Hydrology)  TKACHUK., V.G., ot-v. red.; TOLSTIKHIN, N.I., red.; POPOV, I.V., red,,; ZAYTSEV, I.K., red.; YEFIMOV, A.I., red.; FALISHIN, G.B., red.; GR&CHISHCIM, Ye.K., red.; ASTRAKHANTSEV ' V 1 9 red.; PERLOVICH, B.F., red.~ PECHERSKADiTT:T._,_T_9Tchn. [Transactions of the Second Confetence on Underground Waters and the Engineering Geology of Eastern Siberia held in Chita, 1958] Tmdy Soveshohaniia po podmimnym vodam f4inzhenernoi geologiJ. Vostochnoi Sibiri. Irkutsk, Irkutsko~ knizhnoe izd- vo. No-4. 1961. 161 p. (MIRA 16:4) 1. Soveshchanlye po pod2emnym vodam i inzhenernoy geologii Vostochnoy Sibirl. 2d, Chita, 1953. (Sibefta, Easteni--Water, Unierground) (Siteria, Eastern--Engineering geoloff)  ASTRAKHMITSEV, 7.1.1 GOREV, E.L* . w... I I.- Tetracycline antibiotics in the organism of amimals and pnLlt,,~-Y~ Veterimriia 39 no.5973-76 My 162 (MIRA 18%1) 1. Moskov-skaya vaterinama7a akaditmiya.  ODINTSOV) M.M.y doktor freol.-min. nauk, otv. red.; PALI.SHIN, G.B., kand. ge(J.-min. nauk, red., LOGjl(;n'V, II.A., red.; FUWKER, YoN., red.; GRECHISHCHIN, Ye.K., kand.. tekhn. nauk) red.; ASTRAKHANT$LN V red.; VOLOGODSKIY, G.P., red.; rcd.; FEWROV, I.P., red..; TIZDVLI~ R.R.) red.; SEDOVA, N.G., red.; TEMMAKOV, V.F., red.; ASTAFIYEVA, G.A., tekhn. red.; POIXAKOVA, T.V., tekhn. red. [Bratsk Reservoir., engineering geology of the territory .1 BratSkDO vodokYtranilishche; inzbenernaia geologiia territorii. Moskva, Izd-vo AN SSSR) 1963. 274 p. (MIRA 16:12) 1. Akr-derriya nauk SSSR. Sibirskoye otdeleniye. Institut zerrmoy koi-j. (Brat~3k Reservoir region-Engineering geology)  ASTRAKHANTSIVA A (p. san') ,,Bya An econcay of ten thousand neters of fabric, Promakoope nool:23 Ja 157. WaL 10:4) 1. TakhtiordIc arteli Im. Krasnay Ariaii. ,,(Clothing industry)  '---A&TRAM.Mp:9V , Hand operationa are becoming ii thing of the past. Prom.koop. 13 no.8:18 Ag 159- (141RFL 12:12) 1. Tekhnaruk arteli im. Krasnoy &rmii. (4,jzan--,Tal.lorJj4.p)  AS'TRt,KHi,NTS1,Tjt, A. Clothing dorkors imr rove productiDn. 1rom.koop. 14 no.8:L5 jig 160. P (HMI L3:8) 1. Tekhno-ruk arteli ImArasnoy Armij, 4azan' (Ryazan--Clothing iadustry)  PAULLERP O.F.- AUSTRU-qMT5EVA, A.M.; BUBLIFINKO, V.A. Case of oat fleas attsoking people in iminhabited voom. DAL Irk. gos. protivochum. inst. no,.5g177-T7t9 163 (Y"rFul 1,8gi)  I ASTRLM"TSEVA, G.L; EUKIIARIN, V.A. Two cabes of tetralogy of Fallot with a left-type electrocardiogram. (MI*RA 3-4:4) Grud, 1,;hlr.,3 r.o.2:101-104 161. (73TRA10GY OF FALLOT) (ELECTROCARDIOGRA]PHY)  ASTRAXMTSEVA, G.L; ';AVILIYBV., V.,S. Complications in punature of Vae left auricle and catheterization of the left boart. Xhirurgila 37 no.1134-39 Ja 1,61,, (MIRA 144) 1.5 111 fakml3tatskoy khirurgicLeskoy kliriki 'Imeni Sol,. SpeBoktt-- kotskogo (dir. - akad. A.N. Bikulev) 11 Ybskovskogo gosudarst- re-nnogo medltsiwkogo instituta imeni N,,I* Pirogova i Institutei gruchoy khirurgii (dlr. - pro:1% S.A. Kolemlikorl, nauclmn, rukavo(Utall - alcad, A.N, Bakilev) AMN SSM (IGTIUL VALVE-DISFMES) (ACIRTA-DISEASES) (OMWIAG CA7.19TMUZATION)  V!;TBAmmmL.--ll) I. Intraeavltwr electroollrdiographtr In cardiac catheteriza-blon. Grud. kbi-r-. no.!i.032-38 161. (MIRA 15:2) 1. Iz laboratorli funktaionallnoy diagnostiki Nav. - kandidat medits!"likh awk G. G. Gellsh-leyn) Instituta grudnoy khtrurfrii (dlr. .- prof. S. A. Koleanikov, nauchnyy rukovoditell - akad. A. N. 'Baktilev) AMN SSSR. (ItECTROCARDIOGRAPHY) (HMT) ((,'AltDIP,G CATHETERIZATICH)  ;--17A, 0. 1. BUKHARINI 7.A.; UUM SYU-CHZIIUN [Huang fl'siu-chung]; ASTIUKHANTS, Complete ati-loventricular communJcation in conjunction with stenosis of the pulmonary artery. Grud. k1d.r. 6 no.2:23-29 Mr-Ap 164. (MIRA 18:4) 1. Udelonive vrozhdennjrkh porokov serdtsa (zav. - doktor med. nauk ry ;, R. V.I.Bur-lpovskly) Inntltntn 9nrdec)mo-sosudiStov lelliriir ji AMN ScS Hosl,vx . - . I 'l,'. -  SAVELIYKV, V~S. (Moskva, Pervonmyokaya, ul., d. 122. Icv.2); ASTRAUAN.'MffA,G.L,,.- Distin-bances of card-fac activity during the catheterization of the heart for congenital viida cordis. Grud. khir,, 1. no.2t57-64.11r-Ap 159. (MM. 16t,7) 1. 1z fakalltetskoy VItivirgicheelcoy kliniki imeni S.I.Spasidcukotskogo (dir.-Pro.r. A.N. V*%xlwv-) II Mosko,rskogo meditsinskogo instituta Ime- ni Pirogova i Instituta. grudnoy khirargii (dir.-prof. h.A. Busalov) A14N SSSII.. (CARDIAE CATHETERIZATIM)  KOLWNIKOV, Liq MULIN) V.1.0.; IVAI-IIJ:SKAYA, M.A.; FETROSYAN, Yu.S.1 J2.01WYEVA, N.S. ASTRAKRANTSEVA., G.I. Clinical observations on mitral stenosis patients with active hypartensIon of the leaser circulation. Grud.khir. 4 no.61 3-9 H-D'62. (MBA 16:10) 1. 12 Instituts, aerdechno-sosixdistoy khirargii (dir. - prof. S.L.Kolesnikov; nauchnyy ruko-iroditell - akadsmik A.N.Ezdmlev) ANN SSSR. Ach-es av-torov.- Moskva, V-49, Leninskiy prosyetkt, d.8,, InBtitut serdechno-smudistoy kh-i - gii Atli SM. (MITRAL VALVB-DISEASES ) (HYPmunsioN)  KOLESNIKOV, S.A., prof.; lZUKEDIAN, G.I., kand.med.nauk; LECRITlY3VA, N.S., kand. med.nauk; PIRYTINA, R.A., :cand. med. nauk; PETROSLW, Yu.S., kand.med.naiflc; GCILYAp B.F.; ASTUKHANTSEVA,--~-I- Charce-Lorls ties of tho oporativi) and immediate postoperative perlod In mitral comm--lasurotomy. in patients with severe Pul.- monaT7 hypertenslan. Sovet. med, 27 no.6tl4-20 Je163. (MIRA 17:2) 1. lz Instituta serdechno-sosubistoy khirurgii (direktor - prof, S.A. Kcilenlkovq nauclmyy rukovoditell - akademik A.N.BEOntlev) AM IC&CIR.  ASTRLP,KHA;~'TSOIA, Osnovy ucheniia I.P. Pavlova na urokakh zoologil (Principles of I.P. Pavlov's doc- trine in zooloey CllaSSOS). lloskva, ldchi,edUiz, 1953. 39 P. (Opyt pered%:.vogo uchitelia). 50; Monthly List of Ibu.ssian Accessions, Vol. 7 ) N'o. 5, August 1954  GRIDUNOV, i. .r.; IRYAKIIINA, S. F.; ASIJW~ANT~EVAI N. I Temperature reaistance of the nairit rubber and chloroaulfoinated polyethyleme. Izv. vys. ucheb. zava; khim. i khim. telch* 5 no.5:821-E~:6 !152. (MIRA 16: 1) 1. Ma;akovalciy- inatitut tonkoy Ichimicheakoy tekhnologi!L iz~ni Lmaori,oSOVILP kafedra. tekhnologi'L reziny i takhnologii perera- botki poMnerov. (Ohloropmne-Thenml properties) (Folyethylene-The=al propertiev)  T-7. F 28-6 ncEssiox ims m,,66=7 AUTHORt Gridunov~~I Astrakhantseva, 191. 1. A i TITM. NonWrninj~ 4gi t-r'ssikint'rubberq from nirLiri~y` IaW chlorostalAvQAted ~i -1Z polytitlWleng sOURCUE1 'Inv. VU11! KM4Va-A'khim. tekhnologiya, v. 6v no. 1 1963 L~2-246 I TOPIC: TAGSs nonbiirnlug r4bbar,, nairit, chlorosulfonylated polyetIV3 no, 'US-17i chlorinated pkraffin, ZnDj i-ubborl pro~orty,,, . tensile strengthj, elorgation, res1duml elongatii in, Defo pDiaticity, Shore hardness, wear resiotemes, heat 1ABSTRACTs N6:6burriing heail_ 41nd woar-resiattint rubbers with satiefaatoj7. physi4al and nechanical rc' P perl"ies, hsvo boon preparel from nairit and chilorosuVomylate&. polyethylene rAbor uLtes loaded vith the US-17(Wght-colorod fiUer,jJ6!,,L lb The offect of, CUE on!Lthv~popertlev of naVit ru era was studied for'L vulcardsatas 4ith jirj,ing daritents of mix I.: (nairit, 100#0; ZnO, 5.01 HgO, 10.011 chalk) 500; and chlorlmated paraffin, 5.5 p4rts) and nix 11: (CSPB#l IDD,,O; ItOf 120.0; rosin, 2.5; rapUxqi2*0,,, and diphanyli"nidine, 0.5 parts); aimb.Aure Card  IMPH - - . ...... ... T, io528;-63 1ACCEMON NR: APYV477 80% of A~il.ard 20% -of mix II wits selected for study or tha effecit 1containing of various fillers: on; the nonflawability atO p~Wsiocorttech&nieal proj~erties of Ithe rubbers, The beat redats were obtains,,'! with the US-170 fillor. Ath 10 to 20 parts of thia';f t1lar"j the rubbero are almont nonburning; vith 1,;0 parts ;they Cre fully nonVarn!1ng,Aru1 exhibit good #ysicomechanical properti~eio. Howevor, -as the plasticity of mfixtis', and an ithe structure-4ormii,, offect -of US-170 reft. 'additional ami:=t oP OiiorlrAted paraffin mist be introluced In US-:1111O.'-filled Mixes., Study of tho offect of various metal oxides on -the propertiegi of vulcanizatea ahowed Vwt ZhO does riot affect their heat resistance or other 1properties. 'Me cipriwterlst!~cs of a numbor:of rubbera are given. For examples" a mixt~.re of W% of' mtx I and 20% of mix Il'oontaining US-170t 50,0,; chlorinat ed, paraffin, 4,4;~ ZnO71 4,,(); aiO'1190, 12 parts hae a Defo plasticity of c2!iO g. lte~ 'vulcan.Lzates awe nahbin-nin1j, heat-resistant at lOOCs and exhibit the"fallowing properties: tensile M;.irenittlip 193 kg/cm%- elongation., 415%; residua). -clongation 370 cO/W.-lar; (~hvre hardness, 89, Orig. art* has: 8 tablos and I figureq ASSIOGUTION1 Wed:O; Ukhn.alogii pererabotkt polimerov i WthnoloirA rosirq* Hoskovakogo Uztituts,Aonkay kbimichiskoy tethnologii io. He V. Lownotova T Jk Card  .ASTRAKHONTSEV, S,, M. 0 PHASE I BWK EXPLOITATION sov/6l% Konobeyevskiy, S. T., Corresponding Member, Academy of Sciences USSR, Reap. ~,j Deystviye vadvwnvkh izluoheniv ra matexIaly (The Effect of Nuclear Radiation on Materials). Moscow, 1-d-vo AN SSSR, 1962. 383 p. Mvata slip inserted, 4000 copies printed. Sponsoring Agency: Akademiya nauk SSSJI. Otdclenlye tekhni cheskikh-nauk; Otdolanilye flziko-matematicheakikb nauk. Reap. Ed.t 3. T. Konoboyevskiy; Deputy Reep. Ed.: S. A. AdasinakLy; Editorial Boardt P. L Oruzln 0 ir. Kurdyumovj B. M. Levitskiy, V. S. Lyashenko (I;eoe&sedII,,iu. A. Martynyuk, Y~u. I. F&rovsklys and N. F. Pravd~iik; Ed. of Publishing Houset x. a. Makarenkol Tech. Zdal T. V. Polyhkova and 1. N. Dvrvkhin&., jcard 1/14  The Effect of Nuclear Radiation (Cont.) sov/611.76 PURPOSE: This b,)ok Is Intended for personnel concerned with . nuclear materials. COVERAGE; This is a collection of papers presented at Lhe Moscow Conterence on the Itfect of ~Iuclear Radiation on Materials, held December 6-10, 1960. The material reflects certain trends In the work being oorduoted In the Soviet scient1fio researoh orginization. I!ome of the papers are devoted to the experimental study ol the effect of neutron irradiation on roactor materials (steel, ferrous alloys, molybdeni=, avial, graphite, and n1o)ircmes). Others deal with the thoory of neutron Irradiat:ton effects (phyaioo- chemical tremsformations, relaxation of internal streades, internal friotion) and changes in the structure and proper-~ ties of various crystals. Special attention is given to the effe-3t cof Intense Y-radiation Dn the electrical, magnetic, and optical properties of metals, dielectrics, and. semi conductorb. card 2/1.4  The Effect of Nuelear Radiation (Cont.) SOV/61'16 c~~rakllontsev, S. M. .~~md Yu, T. KonnDV. Effect of Neutron IrradlattoTy-on-lblia-mi.og~)neou~s S-a. d Solutions 121 Specimens of X201180 (WOC~626J &.1loy were irradiated at a temperature not exceeding 100 [C?1 by a thermal neutron flux of 1. 1017 to l.4--lO*0n/CM2 Sayenko, G. P. RC feet of Neutron Irradiation on Ordering Fe.Al Alloy 127 Specimens were irradiated by fast neutrons and measure- ments were n1ade of electric resistance, lattice parameters, and the intenSit,11 of' superlattice lines. Ivanov, A. N., and N..F. Pravdyuk. Effectof Neutron Irradia- tion on Electrical ResiBtELnce in Certain Metals 136 Pravdyuk, N. - F., and P. A. Plastonov. Study of Long-Time Strength of Copper After Irradiation 153 The Investigation WELS conducted before and after irradia- tion, with a ~neutron flux of --102' n/cm2. Card 7/14  ASTRAKHOV, Yubv" The ME7 ellectric erosion machine. Biul.tekh.-ekon.inform. no.10: 43-44 NA. (Electric cutting machinery) (MIRA 14:10)  GRIGORIYEV, Lev kand. tekhn. nauk, retsenzent,- NARTOV, I.M.9 kamui. tAhn. naukp naushn. red.; YZIOMITSKAYA, Ye.ye., red. (Ship vessels operating under pre3sure; determination of stresses and deformations) Sudwye sosudy, rabotaiushchie pod davleni.eim; cipe37edelenie naprigzhenii i deformatsil. Le- ningrad, Siid.ostroenie, 1965. 19.1, P. (MIU. 1&1~6)  ASTIUldii CA~, dotalintY kand.tekhn.nauk, tushener-kapitan 2-go :-anga Improveneat of witter sof boning an ipbmarine boats. Mor.abor. 46 no.2;70-7,1 F 1639 (,~= 16:2) (Sea water, DistiLliation 6f) (Slubmarine boats-Equipment and supplies)  KALININ, Georl;iy Yavgenlyevich; SJUMV, A.V., kand. tokhn. nailk kand. tekhn. nauk; WGCIMOU)V, retsenzen j AqT V.S.8 kand., tol:hn. nauk, nauchn. red.; VARKOIJETSKMA, A.I., red. [Modol tests ol'' marine turbines and enginesl Modellme ispy- tanila sudovykh turbin i. mashin. Leningrad, Sudostroenie, 1965. 193 P. (MTRA 18:11)  ASTRATOV, N.A., dotsent, kand. tekhn. nauk, inzil.-kapitan 2 rangga Training- of studenta in school laboratartes, a burd~3 of practical instruction. Mor. sbor. 48 no.2:39-/+2 F 165. (MIRA 18: 11)  ASUATOVAR Ye. Ibird M-Union Coordination Cow!erence on Polyolefins., I'last. mas-s-Y no.8-.71 163. WRA 16: 0 (Plastics-Congresses) (Olefins) (Polymers)  SADOYAN, V.S.; MINASYAII, G.A.; ASTRA'MATRYAN, D.L. Effeci. of motor regluen on the function of the cardtovapeblar synteri in patients with nymardial infarct. Zhur. eksp, I klin, med., 5 no.108-84 165. (M-1pi. 1.4 110)  S/026/62/000/OC9/002/006 D037/Dll3 AUTHOA: Astratyan, E.A., Corresponding Member of tile AS OSSR T1 TIX; The conditionei reflex and related phenomena PZI t 10 D 1 GAL Priroda, no. 9, 1962, 37-43 TEXT: Some problems, of tile higher nervous activity discussed at flic %'Se,30UZ- noye soveshchaniye fiziologov, psikhologov i filosofov (All-Union Conferance of Physiologisl.s, Psychologists wid Philosophers) in Moscow are commented on in the light of Pavlovl,, reflex theory. Two forms of the adaptive change in con- --enital reflex activity are described: (1) the switching reflex in more highly developed living organisms; (2) tLe suinmal:icn reflex or Banung-dominant, whic:.t is tile concrete expression for (a) the iiiotor and adaptive reactions of one-. -celled animaLs, bacleria, some species of ))lvjits, lower invertebrates and Some lower vertebrates ajid (b) for some other phenomena erroneously called cor)di- tioned reflexes. The b1ological role of the variability of congenil:al reflexes in the adaption of the organism to the various constantly changing envirorunental factors is explained. The opinion of foreign scientists that even -the lower Parr. Card 1/2  The conditioned reflex and related henoinena of the spinal cord can elaborate conditioned matiod of -:he brain stein is the basic organ futed by Soviet scientists. ,sIb26/62/000/009/0011/006 D037/D113 reflexes and that reticular for- for their elaboration, has baen re- Card 2/2  CIFURAKOV, Eonstantin I-variovich; )..STRAT1YA117A,_jL.-j.,,?red. [Constniction projects of' the seven-year plan] Stroiki &emilet1d. Makhachkala, Dageatausleoe knizhnoe J.zd-vo, 1964. 62 y. (MIRA IS: 5)  ASTIIAUISI~IIS, V. I., Cland of 1110d lici -- (d:Lss) "Cortain physiological lavis governing antibodiea during the USO Of VUrious Of lir.,,riunixation.ll Villnyus, 1957, 23 pp (Instltuto of Exporimental Hodicine, Academy of Sciences Lithuanian SSR), 2.50 copies (IM, 31-57, 105)  v ASTRILUSUS, Yu. P. , Cand Tech Sci -- (dii3s) "Study, of the C of the D-35. Motor A:ccox-ding to the Gas-L.Lquid ProceE:s.ll Kauna3, 1957.. 21~ p:p (Min of AC,-,r 'USSR, Lithuanian Agr Acad ), 130 coPiOs O(L, 52-57, 106) - 43 -  POPOV, Vasiliy Alelksoyevich; ASj.'ILEIN, Avenir ArIcadlyeviclIj UZDIN)-Dalrid Konstantlnovl~h; (RjRffC-l V.G., red.; DTOCHEVA,, 14.1., red, izd-va; IELRIKHIF, A.A.j tekhn. red. [Operation, naintemance arA repair EkspluattLt5iia i reinont podvizhnDg:o obshchei rind. V.A.Popove.. Moskva, USIPSR, lc,,6.L. 1+71 p. of troUey- bus rolling i3tock) sostava trolleibusa. Pod Izd-vo M-va koimmn.khoz. (MIRA l';:3) (Trolley buses)  KOVALENKI),, M.; MCLITKOV, D.; ASTREINOVI N. Using thIn-walled mush-reinforced concrete slabs or sholls in induatrial construction. Prom.stroi. i inzh, sooro 4 no.4: 43-41~ J:L-Ag 162. (MA 15:9) 1. Danetakiy, nauchnc-issledovetellskiy in.stitut nads:aalchtnogo stroftell'stva, Akadejuii stroi-Wl'stva i arkhitektury UkrSSR ~for Kovk1enko, Milyukov.). 2. "A) -%Ilurgkh irmash s troy" (for Astreinov). (Precast concrete construction) (Open-hearth furnacas-Foimdatlons)  KOVALENKOI M.A., inzh.; MILYUKOV, D.A., inzh.; ASIT11EINOV, II.I., inzh, --- Use of thl-n-walledi wsh-reinforced concrete slab3 or shalls. From. strai. 40 no.5-44-45 '62-, (Yllk 15:5) (Reinforced concrete construction)  AT6oO3O85 3OUM CODE; UR/,-~4-,131/63/00O./015/0185/to~189 AUTHOR: Kudryashey I. Professor, Dootoj? of techiiiical sciences); Aitrelin, B.N. ORG: None 2 tIt V57 TITLE, Effeot of the mnsteady state on the coefficient of heat transfe,',_ in flow around a s-oh n the regJ,on of ve small Reynolds numbers SOUROB: Kuybyshev. A-r1,at:.'i:1onnyy institut. !?'~rudy, no. 15, pt. 2j 1963. Doklady kustovoy naui,,IFno-.;Ve-lEffn-Lo-ii-e7swy onj:'erentsil po voprosam mekhanikl. zhidkosti i gaza (Re:portii of the Joint scifintiflo-teohnical conference. on problems of the moha~rilcs of liquid and gas), 18r;-189 TO11II0 TAGS: convecti,ro hl~;,,at transfer, Reynolds number, heat conduction, heit transfer coeffic.'LenIv, unsteady flow*- ABSTRAOT: The probleio'is;formulated using 'j;he following differential equation for heat couduct-;ion (applicable t:~l the sphorleal p:robl.em).., ~he boundary conditions are the following.  L 14512!!6h ACC NRt AT6003085 0. 1 OW.- 61 tw f2)i where is the Initlal temperature of the!particle; 6 is the stream temperaYttie at the staxt of the process. lLfter an extinded mathematioal treatment, the auth03!;3 arrive at a formulalAon vhich, it is stated, makes It poseible to take into account the effect of the unstoady state on the heat transfer ooeffloient In flow Ni!ound a very small spherioal body. This effect Is extremely substantia~J,, since even an average result leads to a tw(wj"old, Inarease In the heat transfor coefficient compared to the valuct for a steady-state Nitaselt regime. Orig. art. has; 21 formulas. SUB OODE: 20/ SUBM DAIE: 00/ 01'11G REP: 002/ SOV REP: 000/ OTH REP: 000 -A 2/2 Card  ASTRELIN, M.M., t4~ronvm. Storing auni"lower seed from varietier with a high oil content. Mael.-zhir. prom. IS r.o.,6,.9 Je 153. (KM 6:6) 1. HavinnoMraskly maslozavod. (Sunflower seed oil) (CA 47 no.2,2:12:1344 153)  A S - -, iIimgJW6-,-, SuAyUkrainskoy SISR) Tjj�ur Preedirg Trichogramma on tha nature atudy plot. list. v *hkole no,2:77,-82 Mr-Ap 156. (MLU 9:7) (Ir.seetiv, Injurious and benefic ttl-Biological control) (Chalcid f Ites)  ANDREMN, Yu.kq A-STRAKHAUSKIY, I.N. Now mmple of peacefiLl cooperatJon. Mor.sbor. 44 no.,!:27-.%')2 F '(61. (MM LOW (Hodeida, Yemen--Harbor)*  AKRET-SOV, A. 1. - - - Organizatsiia chert6i;hnopo khoziaistva. (VeAn. Mlash., 1950, no.5, p. 71-73) Organization of the drafting room practice. DLC: TN4.V4 SO: Manw"acturing arid Mechanical Engineering in the Soviet Union, Lia.,-ary of Congress, 1951,  1. AVIRETSOVO .46 It 2. USSR (600) 4., Spinning Machinery 7. New standards for spindles and runners. Tekit. prom. 12 no. 3.2 1952. 9. MRn_Ulv 11j& of- Library of' Congress,_jSj:Vh1953. Unclassified.  ASTRNTS(YV. A. I., - ~ " : -- -, , -, 1. More on drawing room practice in machinery design. Standarlizateiia no.1:73--75 4ra-Fe '56. (MLRA 9:2) l4amestiteV nachallniks, otdola mashinostroyeniya Yomittits. standartoy, mar i ItmeritelInfth priborov. (Nachinery-Design) (Draving-roon practice)  AUTHORt Astreteov, A.I. 28-5-19/30 TITLE: On the Revision of Standards for Handling Drawings (A review of letters received by the editors) (K peresviotru standarto.v na slatemu cherte2hnogo Ichozyaystva - Obnor p1sem, postupivBhikh v redaktsiyu) PERIODICAL: Standartizataiya, 1957, 5, P 75-77 (USSR" ABSTRACTt T..,.e Committee of Standards, Measures anti Measuring Devices and the periodical "Standartizatsiyall have received a large quantity of letters on this subject. The 1,eningrad branch of the All-Irnion Technological Project Institute (Vsesoyuznyy proyektnci-technologichookiy institut) has been commissioned to reviea the entire group of standards ITOCT 5290-5011 and 115302-50" for tandling drawings. It must finish this work during the first half of 1958. Scme remarks and suggestions made by 14 authors of letters are here reviewed. The riquirements of acme separate ,rOCT" paragraphs are not clear, and this has caused the ministries and even single industrial plants to issue additional explanations. The nuinbere of standards for materials have to tie given in the specifications on the drawings. This inegna additional wo:rk Card 1/2 to desigi,ers. The changes Df standard nunbers cause- additional  28-5-19/30 On the Revision of Standards for Haniling Drawingit (A review of letters received by the elitors) work (the author of this lotter suggests transferring this dnta from the drawing sheets into the general technical conditions for -the work). The ,r60T 5294-5011--~'Pesignations for Drawings of Basic Pro- ducti.on. Basic Principles" chould be rev'-.sed, since it establish- es no order in the designation of materials. ' Y,f.ny authors of letters consider it nocessary that the Com.- mittve of Standards,.Measur,os and Measurftng Devices,issue a "Collection of Sample Drawings" in accordance with the require- ments of standards, as well as books and booklets explaining how to l,nt;rodu.ce the standards and giving methodical instructiono. AVAILABLEi Library of Congress Card 2/2  --AS. .- Ribbon loons and reeling machinos. Standartizatsiia 26 no.7:42-43 .11 162. (MM 15-7) (Looms--Standards) (Reels (Textile ma--hinery))  ASTRETSOV, A.I. Spinning machines for wool and flax. Standartizataiia 27 no.2:40-41 F 163. (MIRA 16-.4) (Spinning machinory-Standards)  ASTRETSOV, A.I. Using the term "surface roughnesa." Standartizatsila 27 no.3;62 Mr 163. (MIRA 16:4) (Surfaces (,rechnolog-A)  ASTRETSCIV, A*I. Standareization of machines and aquipment for light industry. StandartizatsUa 27 no.9:10-12 S 163. (KRA 16:10)  ASTRETSOV,, A.I. Automatic looms. Standartizatalia 28 no,,1:42-43 Ja I&I, (14IIIA 17:1)  ASTRMOV V KOROTIN, V., DUBROVIN, N. Readers cotments on 6.1. Shcherbuko,ris book *Killing wheat and rye,. n Revivwed by i.lqkov, Y.Astretuoy, Y.KorovI.n. H.Dabrovin. M:P-gleveprom. 20 no.8:30-31 Ag 154. (KM 7:9 (Wheat milling) (Rye milling) eShcherbakov, S.I.)  PORT1107, Ya.;.,xSTIUITSOV, V. Cont:~Olllng tho.teclinological procens at flam. mills slit'l the help of inBtrum3pts for witomatic and remoto control of consimption. MuI-..-n'Iev.j)rom. 25 no.9:15-17 3 '.59. (14IM& 12:12) 1. Sirerdlovskiy mulcomollno-elavatornyy telchnikum (for Portnov). 2. MAInitBa 11a.2 v Sverdlova"ce (for AstretBov). (Measuring instruments) (Flour nills-4quipment and supplies)  - C~-itiol- of cement-qua)lly.-,~- M. Tione-ml 19, No. 6,11-12(1953).-Ift.1wr 1. of ecincul doci no-.' - ch tract-rhe alit of production, A;hereas ptizographit =9 ahemicia Abot- to det. wetit of burning arA thorough. anAysis can nem of mixing. Presence in the rlin:*!r of a smatl aint. of 48 Ito, 8 Wile an I a large amt. of free lime Indleptes und-trburning. l h ff Hi lit d f li I di 5i h f 'Apr. 25 p %954 ti coe e an tee me n tes very coutent o a g l ofz%tn- Large v"t Ions in elite cims v t Ind icwt pwr mix: ' ccj~.~j;6te, and Mel* Cement a - Dtta on elite coatent can be. obtal-ted with tkn aid of a - l 0 i s D,uilding ~Jaterielll croscope in 3D-4 m irin n, per szmplit. First, Jou m he p"mce of free lime is detd, In a sok. of pheno I in vitro- )ewtnt;~~ bito, with anothtf sample bi tul hnrpem~on liquid larlig an *i 61 ISO-1.700, the content 0 alite sot, belitt in Is tiltiter Is detd. B. Z. Camich-  ~o 0 & 0 0 4) 0 4) 6 0 0 0 0 I I A 1 0 f 11 it u u u s w is to M i 16 H X X $1 9 13 Ad 3 J6 V 31 V 4 41 Q 0 0 ll~' ooA J,-jLJL-g-j-A-x A A --Z- Lota VC .0 A L - If !1~ r plrttuL Ps a 1;01" schi. in CaO-Al,C'~. ; No I "Ill of the Mgt) and MnO *as found as spincl; tllCV' jTIC fUlLud -i-irtly as. solid Was, irilhin oirik-r inintrals (it Ill I venitnt at Its vitit- ouil phase. Ill Cements Willi the 101yet-Fe Content thq lut- ter; was fa.1rd moitly as wiL%tite arte. I a smill qtim.til iv.; as I di-Ca ferd LC_ Ti% tattrcil the 14. IATt DI SMI)PIC9, alkd only tinuill quAiltit 6 of it letai'llizil illMit. iiig'l. tt'hlue it,~ ;WJuvAile, foll o", tilt pilam elylld. (olitimit'llOy In ono step withuat tubdilviding Into tlhtilLt littUCtUr-ill Mag(!S. U0 EL. -N-lemkitsLA12-12 La  fflmmuw~~ ASTRETEVA. 0.M., k-andidat teklinicheskikh railk. Light refraction of celit-e in clinker. TSement, 19 ric-3:30 HY-Je '53. (HT,RA 6: 6 ) (Cement-Teuting)  ASTREMA, 0. M. B. T. R. Vol. ~ NO. Apr. 1951, cGramics avd C-r~nn-~;,u ProMviii of nit 11-12. Data on alife content can be obtained bY using th.- Nlariu,8  n thi! prtNtnCe~oj T-,.O.., There j,.s * L)U o CaUQ but sli& fDTTVIlti f chaker n4vriLls, 4esallIfill; jil a~j ftee 0 to 3*1 CUO. With ru~ lormatkn, -of jiqui~l ph. TiC~ dis alid dilutes it, re-suNag in iwcn~ivc a'simi- a n C I i1 I I- efs 1,0111aUng TiO. itre chanicterized by larier crymidlizatioll of i t~ z it F a 19 ,partkuLirly K. ANNE  09.4 liz of Lint luld Strentmal cot ~Feii 01140ja, bullimIns, 13. G. SputivTAIV 0 M. JjsTARSVA, AND L. Lckpowmou. F)-n-n7erc=sto .17 Vws old sbovvrd ab-4 same ttre-niE (0C to 778 'rat strocture rem*bi0i gtl4ike during a pro. loncid time. N'ewly foisned crystalline products after 18 to 17- yemi, are aND small that optical vonsuuts and form of the cry*Wi' coti4 not be determined. 7be structurt retained frngments ot ccape at clinker imuoun' ing to 30 U. -107v~ These fragments con sist c I crystals of Mite and befite and an Intermediate substsace. Th(v was no t4ective hydration of clitiker vaintrals. M,:rinS oloused haziluning, clinker minerals oil sks PortLuad cein r tnt p byelmted compIrtely, but the fragments; of &)Ag jlAs3 did IM01 ch~njjr. .-J Inn "M "I MIN  USSR/Chemical -D~chnology.. 6hemical Products ani their Application. J-12 Glass-Ceramics., Constraction Materials. Abs Jour: Referat Zh.-Kb,, No 8,, 1957Y 27758 Author O.M. kstreyvzv&, L. Ya. Lopatnikova. Inst Title Hydrwulfoaluminate Composition. Orig Pub: Sb. rutuchn. rilot po khimii i tekhno).. oilikatov. M., Prom- stroyizdat, 1,,),c,6, 34-37. Abstract: It is establi;,*~ed that. they kydrosulfoalumirlate of the corapo- sition 4Cao..kL,;,Oj -O-2FeO? -NaSO, is produced at the hydration of CtAF with nrpsum, wid ihe hydrosul.foaltunInate 3CaO -2.3kt,; 0', 3CaSO,y aq. is produced at the hydration of CA with gypsum. Card 1/1 -112-  SO V11 37-57- 10-20546 Translation from, Referativnyy zhurnal, Metallurgiya, 1957, Nx 10, p 309 (USSR) AUTHOR: Astreyeva, _0._M. TITLE: Petrographic Method for the Evaluation of the Quality of a Slag (Petrograficheskiy metod otsenki kache.-;tva shlaka) PERIODICAL: V sb. : Domennyye shlaki v str-ve, Kiyev, Gosstroyizdat Ukr5SR 1956, pp 78-84 ABSTRACT- TI.e author proposes a petrographic method for the inspection of blast--furnace slags (S) in the course of their conversion into building material. It is established that S containing