Extrusion of Thin-Walled Aluminium. Sheaths O"OV/136-59-11-13/26 materials. Tubes were extruded and bare copper conductors, as well as cables insulated with fibre, were sheathed. The rate of metal flow in the extrasion of tubes was 25 to 30 m/min, and i~ shepthing 5 to 15 m/min at a pressure of 60 to 70 kg/mm . The sheath dimensionj obtained are shown in Table 2. The sheath wall thicknesses along the leni~th of conductors are shown in Fig.3. There are 3 figures, 2 tables and 7 references, of which 6 are Soviet and 1 English. Card 3/3  FMLIKAN, Aleksandr Samoylovich, inzh,; FRIDKAH, Aron Solomonovich, inzh.; BRAIMENBMSKATA, Mae, redo; BORUNOV, N.I., tekhn.red. [Aluminum in the production of cables] Aliuminii v kabellnoi tekhnike. Noskva, Gos.energ.isd-vo, 1960. 95 p. OUMA 13:6) (Aluminum) (Ilectric cables)  -L ~)UL  - z 7,5~ ON . , - I'll , - 0- 11 .1 . 1 4, " mm -1-1:  SI)URCE: :,ristalloqrafiya, v. 10, no. 4 , 19 17, galliurn arsenide, indium compounl, ~t, I 7 9 1 ocation, i-odi-ne, iodi-de, semi cord-i r S t 'a -j 7 ii c ri i semt-co,nductor cr. Ill-,' semiconductors  ACCESSION NR: AP5018728 ing reqion was 400C for GaAs and 250C for In9b. ne rate r:,f sipply cf ir)(!ino -,;ipor was controlled by means of ~i slrp;ir- "-Tn a U U; ASSUClATION: Institat fiziki tver-dogo tela i po1uprnvnc3ni-,-,-., A'.1,j 64 EN CL 0r-1  KHAYNOVSKAYA, V.V.; FIEL'MAN, F.L. . . ..........., Pickling of gallium arsenide. Izv. SO AN SSSR no.3 Ser. khim. nauk no.ltl25-128 165. (MIRA 18s8) 1. Inatitut fiziki tvordngn tola I polyprovodniknv elektronik-4 Sibirskogo otdeleniya AN SSSR, Novrosibirsk.  Iic) L 1886 EW(M)ft(t)j ACC NRt AF6008067- SOL'PC'u?-CODE: UR/6032/66/032/002/0214/0215 AUTITOR: Givellberg, 0. Ye.; Edellman, F. L.; Muravskiy, B. M. ORG: Institute of semiconduotgr D'h.VqjQ� Qf the sibui h nf the Academy of Sciences SSSR (Institut fiziki poluprovodnikov Sibirskogo otde enlya Akademll nauk 553FE) 1113 TITLE: A simple method of preparing silicon samples 1966t 214-215 SOURCE: - Zavodskaya laboratoriya, v. 32, no. TCPIC TAGS: semiconductor crystal, silicon diode ABSTRACT: The authors describe a method for preparing simultaneously a great number of samples from crystals used in mass production of high- Ifrequency silicon diodes. A'crystal plate of a 2-mm diameter and 0.3 to 10.2 mm thick was held in a special clamp made of teflon. The arrange- !~ent of the clamping device was schematically illustrated. One or both isides could be etched by immersion into a mixture (1:3:3) of hydrofluo- ric, nitric and acetic acids. The duration of treatment was about 1 hr and 30 min. A surface conductance for 75-kev electrons was obtained. SUB CODE: 20 SUBM DATE: None ORIG REF: 001 OTH REF: 000 C,wd  3/123/59/000/008/016/043 AOO4/AOO2 Translation from: Referativnyy zhurnal, Mashinostroyeniye, 1959, No. 8, P. 68, # 29051 AUTHOR Edel'man, F. L, TITLE: Liquid SItamping,( PERIODICAL: Za tekhn. progress. Byul. Novosib. sovnarkhoza i oblsovprofa, 1958, Nos. 4-5, PP. 14-16 TEXT: Bibliographic entry Card 1/1  3/148/61/000/002/011/011 A161/A133 AUTHORS: Idellman, F. L., TushinWdy, L. I. TITLE: An investigation of iron-aluminum alloys PERIODICAL: Izvestiya vysshikh uohobnykh zavedeniy. Chernaya metallurgiya, no. 2, 1961,..128 -.,132 TEVt Nonoxidizing high-temperature alloys used at present are high-alloy steel and spec-ial alloys (with Ni, Md, Cc or other base), or low and medium-alloy steel and cast iron (iWoutly with,Cr, Ni, Si, eta.)*thait are,oxidition-proof at BOO - 9000C. The described investigation of low-r-arban Fe-Al alloys has been conducted for the reason that this is the cheapest 6lement combination that-is oxidation-resistant at 800 - 1j1OO0C. the alloys were prepared by mixing molten low-aoarbon iron, with 2.49 to 29.36% Al. The *initial materials were: aluminum. with 0.00% Sil 0.002% Cur and 0-17%.Fe, and iron with 0,08% C, 0.15% Mn,-0.22% Si. 0.024% S,0.018% P and 0.05% Cr. The iron was melted'in kn acid induction'fuinace with fluid.slag (glass scrap); 0.15% (weight per cent) Al,was added towards the end of the melting. The Iron temperature measured during pouring was 4 500 - 1,530 0C. ~he average wei&.t of a melt was 1 kg. Aluminum was melted In a cru6ible, Card 1/3  270h0 S/148/61/000/002/011/011 An'investigation of iron-aluminum alloys A16l/A133 overheated to 7500C, and mixed with iron poured ifito the crucible using a steel rod. All specimens with below 16.11% Al. had cioarse disoriented crystals and 1 mm deep finely grained skin.. Alloys with 16.11 - 29-36% Al had a zone of itcicular crystals reaching from the fine-grained skin to the axis of the.'.ingots,*and the ingots broke from relatively slight blows. The microstructure was-examined in cast specimens annealed at 1,0000C for 5 h. It-.was a m'onop~ase t;olid solution in metal with up to 10.6% Al, and biphase structure in metal with more Al, with the laminar second phaseon the background of a light polyhoaral'oomponent The lamellas were often on the boundaries of solid solution griihs, and the size of lamellas was different. They were largest in alloys with 16.11 - 29-36% Al. The lamellas coagulated after 5 h annealing. The microhardfies's'ok the largest lamellas was lower than that of the base, and the difference was largest in metal with 29.3W Al. The hardness was different in difforent spots. The highest hardness was ob- tained in alloys with 22.37% Al; 5 h annealing at 1,0000 reduced the hardness by 30 - 70 Brinell units in all compositions. The machinability was estimt6d by drilling and corresponded to the hardness. Comparing to four annealed steel grades) most of the tested alloys except for the composition with 29.36% Al were better machinable than the heat-resistant 2 X13 (2Khl3) steel. The high-tempera- ture oxidation resistance was tested in an oxidizing atmosphere of a'fu~nace and Card 2/3  C r%PW s/A8/61/ooq/oo2/oll/ol1 "U-7 esus*tioft of Iron-aluminum alloys A161/A133 VAh analytic Beale'. The scale on alloys with below 10.60% Al was .#M easily heparating, but on other alloys it was very dense, ~ pink, Z'iW*k 'to +.6 Murfa6e. In the open air the pink film i2apidly covered. with a ihite WAtter (ipparantly aluminum hydroxide).. The resistance to scaling A, ~11~,00006 %it %om6what higher on specimens with thb cast skin left on than on HAM Of Uft-Ametal composition after turning. The Fe-Al alloys with above Al had higher heat r*aistanco than M13 eel and several times higher %~'I*iliaoh and aluminum cast iron heat res tares indicated in some publics- Qihl oils -figures, 1 table and 5 Boviel,- tio*A% ":jUsentially- full- translation]. There are 5 bloo con. ASSW%A'ft*1 "Noftsibirskiy'olektrotakhnictieskiy institut (Novosibirsk Ilobtro- tebhniail Institute) SUEHrrm MY 41, 1960 Card 3/3  32662 S/126/61/012/005/026/028 1% Mb E040/E435 AUTHORS: Pokrovskiy, V.V., Tushinskiy, L.I., Dautova, A.I, TITLE: Superstructvre and anomalous corrosion resistance PERIODICAL: Fizika metallov i metallovedeniye, v.12, no.5, 1961, 778-779 TEXT: The anomalous drop in the corrosion resistance of ferro- aluminium alloys in the temperature interval of 550 to 580'C was investigated on cast ferroaluminium specimens containing 2.49 to 29-36% Al and impurities of C, Si, Mn, S and P in the total quantity of less than 0.5 to 0.8%. The specimens were dissolved in molten 0-1 grade tin at various temperatures (up to 120000- and the quantity of the dissolved ferroaluminium alloys was determined at the various test temperatures. All specimens were annealed before tests. The data obtained are shown graphically. It was found that a sharp deterioration in the corrosion resistance of ferroaluminium alloys corresponds to the temperature intervals of 500 to 6000C and 1000to 1200%. The absolute solubility of the test specimens with various aluminium contents is of the some order for all alloys with the exception of Card 1/3  32662 S/126/61/012/005/026/028 Superstructure and anomalous E040/E435 those containing 16.11% Al and 25-76% Al, Alloy steels IX13 (lKhl3), 1X18W (lKhl8N9) and lXl8H9'f MUU9T), titanium and nickel tested under identical conditions had a lower corrosion resistance than the ferrouluminium alloys. Nickel was found to dissolve completely in tin at 550*C, An attempt is made to interpret the test data in terms of the previously reported concept of superstructure (Ref.l: Bradley A.I, et al. J, Iron and Steel Institute, v.125, 1932, 339; Ref.2% Sykes C- et al, J. Iron and Steel Inst., v.131, 1935, 225; Ref,3: Bradley A,I, et al, J,. Iron and Steel Inst., v.141, ig4o, 63) which affects the corrosion resistance properties of ferroaluminium alloys in the temperature interval of the order-disorder transformation (550 to 5W'C) and arises in consequence of the disappearance of domain structure of ordered alloys and the development of lattice defects and their diffusion in crystals. The most probable cause of the observed reduction in the corrosion resistance of the alloys is the appearance of lattice defects at the instant when disorder sets in, which leads to a weakening of the interatomic bond forces. There are I figure and 6 referonces! 3 Soviet-bloc and 3 non-Soviet-bloc. The three references to English language publications are quoted in  32662 S/126/61/012/005/026/028 Superstructure and anomalous ... E040/E435 the text. ASSOCIATION: Novosibirskiy elektrotekhnicheBkiy inBtitut (Novosibirsk Electrotechnical Institute) SUBMITTED: March 13, 1961 Card 3/3  EDELIMAN-0 F.L.1 IUSHINSKIYo L.I. Investigation of iron-aluminum alloys. Izv. vys. ucheb. zav.; chern. met. no.2:128-132 161. (KIRA 14:11) 1. Novouibirskiy elektrotekhnicheskiy institut. (Iron-aluminum alloys)  35920 s/i48/62/000/002/007/008 E073/E535 AUTHORSt Edellman, F.L., Pokrovskiy, V.V., Tushinskiy, L.I. ;-ndDatitova, A.r. TITLE: Stability of alloy steels in molten tin PERIODICALt Izvestiya vysshikh uchebnjkh zavedeniy, Chernaya metnllurgiya, no.2, 1962, 123-124 TUXT.* The aim of the work was to determine the stability of various metals and alloys in molten'tin at temperatures above 500*C. Specimens made of alloy steels of standard composition, of pure metals (titanium, tantalum and nickel) and of iron- aluminium alloys containing 2.49, 16.11, 18.44, 21.62, 25-76 and 29-36% aluminium, rest Fe were immersed for two hours in molten tin at temperatures between 400 and 12500C. The degree of" dissolution of the metal in the tin was determined by calculation from the difference between the initial and the final contents of the particular material in the tin. Titanium and tantalum proved resistant against dissolution in tin but became brittle at 6000C and above; therefore, they are unsuitable an str-uctural materials under the given conditions. At temperaturesup to 10000C, the Card 1/2  Stability of alloy stools in s/148/62/000/002/007/oo8 E073/E535 steel 1X1qH(j-r(lKhl8N9T) was the most resistant against dissolution and iron-aluminium alloys showed a satisfactory resistance. Above 10000C, the aluminium alloys containing 16.11, 25-76 and 29-36% Al were more resistant than stainless steel. In view of their cheapness and good technological properties, iron-aluminium alloys are recommended as substitutes for stainless steel in the manufacture of apparatus intended to operate in contact with molten tin. There is 1 table. ASSOCIATIONs Novosibirskiy elektrotekhnicheskiy institut I (Novosibirsk Electro-technical Institute) SUBMITTED: March 14, 1961 card 4/4  ,_EDELIMAN, F.Lj POKROVSKITj VA.; TUSHINSKIYp L.I.; DAUTOVA, A.I. Superstructure and the anomalies of corrosion resistance. Fiz. met. i metal-loved. 12 no*5:778-779 N 161* (14IM 14.'12) 1. Novosibirskiy elektrotekhnicheskiy institut. (Iron-aluminum a3-loys--Corrosion) (Crystal lattices)  EDELIMAN F.L.- TUSHIMKIY, L.I. -- Substructure and ehear in the structure of cast alloys. izv.vys. uchebezavo; chernemet. 5 no.6slOO-102 162. (KMA 15-?) 1. Novooibirskiy alektrotakhnichaskiy institut. (Al.loys-Metal.lography)  9/148/62/000/008/004/009 E071/E435 AUT11OHS: Edellman, F. L-!, Tushinskiy, L.I. TITLE: Resistance or iron-aluminium alloys to scale formation PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya, no.8, 1962, 1,19-127 TEXT: The investigation was carried out in order to obtain data on the resistance to the formation of 'scale for a large group of iron-aluminium alloys containing variou: amounts of c.-irbon (0.05 -to OA51. aluminium (10.6 to 31.2) and ilicon (0-03 to 0.52). Some of the alloys were modified with calcium. The method of preparation of the alloys and specimens ds ~rell as the method of testing were described i 'n an earlier paper. The specimens were retained in a furnace at 800 and 1000'0C, for 1, 2, 5, 10, 25, .50 and 100 hours and at 11000C for 1, 2, 5 and 10 hours. In addition some data on the initial stages of oxidation of the alloys at 10000C were obtained. Depending on the temperatu~re of oxidation there are various optimal compositions of iron-aluminium alloys: Card 1/3  s/148/62/OOo/oo8/oo4/ooq Resistance of iron-aluminium ... E071/E435 Optimum content of Resistance to Al in alloy,% scaling at a. temperature, OC not less than 15 - 16 up to 800 not less than 18 - 22 800 - 1000 not less than 22 - 25 1000 - 1100 The mechanism of oxidation of the alloy is similar to that of iron-chromium-aluminium alloys, i.e. in the first stage simultaneous oxidation of iron and aluminium takes place with the formation of an oxide film, probably of the spinel type. On further retention or with increasing temperature, the process of alumothermal reduction of iron oxides in the film takes place. The composition of the film approaches that of aluminium oxide. All iron-aluminium alloys with an optimal or higher aluminium content for the given temperature had a donne, non-scaling oxide Card 2/3  s/148/62/000/008/004/009 Resistance of iron-aluminium E071/E435 film. Conclusion: iron-aluminium alloys in the-cast state have a high resistance to scaling, comparable with-that of a number of highly alloyed steels and alloys. The protective oxide film is dense and thin. The beat resistance to scaling can be obtained in low carbon alloys (less than 0.1% C and 17 to 225; of Al), modified with 0.1 to 0.2% of calcium. The-parabolic law is applicable to high temperature (above 800*0 oxidation ok iron- aluminium alloys on the basis of which*the main constants of the oxidation process can be calculated. There are 7 figures and 3 tables. ASSOCIATION: N6v6sibirskiy,elokti-otakhhicheakiy*.institut (Novosibirsk Electrotechnical Institute) SUBMITTED: July 7, 1961 Card 3/3  EDELIMANs F.L.; TUSHINSKIY, L.I. ScalaTesistance of iron-aluminum alloys. Izv. vys. ucheb. zavi; chern. met. 5 no.8:ng-127 162. (MIRA 15:9 1. ?Iovosibirskiy elaktrotekhnicheskiy institut. (Iron-aluminum alloys--Corrosion)  ACCESSION NR: Ap4oi7762 3/0148/64/000/002/0131/0139 AUTHOR: Edellmanx F. L.; Tushinskiy, L. I. 'TITLE: The structure of Fe-Al alloys I . Va L~4 SOURCE: IVUZ- Chernaya metallurgiya, n . , 1964, 131-139 TOPIC TAGS: iron aluminum alloy, alloy structure, macrostructure, microstructure, annealing) K-phase, alpha solid solution, ferrite, graphitop silicono calcium,, iron, aluminum, heat treatment ;ABSTRACT: Little is known about the effect of different compositions ~of Fe-Al alloys on their macroatructures. Therefore, the authors in- .vestigated 200-300 9 specimens of the following group of Fe-Al alloys: W with a low content of additivea and a variable Al content; 2 with a variable 0 and Al content; (3) with a variable Si and Al .content; and (4) CaSi-inoculated alloys. Maximum brittleness oc-; Icurred in group W- .:cnoreased additions of Al and C lead to inten- Isive graphitizing In all groups, and 0.1 to 0.2% Ca refined grain size and caused the formation of equi-axial crystals. Hot ductility was  ACCESSION NR: AP017762 found to have increased with tensile strength reaching 51'kg/=2 at a :10% elongation per unit length. The microstructure of the specimens 'was basically composed of Al in Fe alpha-solid solution, with negli- i 'gible quantities of C and a K-pha.,. In the light of the current ,controversy over the effect of thL K-phaso on mechanical and physical ;properties, the authors Investigated the action of heat treatment on Ithe microstructure of the alloys. Cast specimens were annealed at 1000 C for 100 hours. Hardness was highest in group (2), reaching i 395-615 Brinell Hardness (HB) for the alpha-phase and 615-755 for the K-phase. Carbon alloys were appreciably affected and it was found i1that the quantity and the size of the K-precipitants increased, and fthe hardness of the alpha-solution decreased by 10-40% and by only 5 .to 15% for the X-phaaa. Carbide hardness amounted to 703-858 Brinell Hardness (HB). In group (3), annealing decreased the number and size of the X-phase grains and carbides. Group (4) displayed less carbide, 'and with 17-22% Al, numerous lamellar K-phase grains and a carbide phase appeared. All inoculated annealed specimens displayed a lower alpha-phase hardness and a higher K-phase hardness# The authors . - 2/3 .Card  ACCESSION NR: AP4017762 contend that the K-phase is a stabilized superstructure (Fc~Al) with a C content within the 0.01 to 4% range inasmuch as the C c ntent does not affect the quantity of the K-phase while microhardness is affected by composition. The authors recommend a maximum C content of 4.4% in the K-phase which corres onds to the formula of the (Fe Al)4C3 com- pound. Orig. art. hass 9 figureas 3 tables and 2 equations. ASSOCIATION: Novosibirskiy elektrotekhnicheskiy institut (Novosibirsk Electrical Engineering :Enstitute) SUBMITTED: 31ju163 DATE ACQ: 12mar64 EXCL: 00 SUB COM ML NO REF SOV: 010 OTHER: 000 C6[,BI3  EDELIMAN, I.L.1 BARAPAS11, M.L.j ZAYCHENIO, A.L. Use of a horizontal optLmeter in dntermir-ing the wear of polymer coatings. Zav. lab. 30 no.10-1283-12P.4 164. (~U-RA 1814) 1. Klyavakiy avtomobilIna~-doroatinyy tnativit.  -- -- - - - - - - 1/1 (bt pli t _i--. 1, A- ~f. . 71 -- (Jj/fATMp(AA/ 7 1 - A- I * - (Irl r-MAMP ,I nfzft 1 -1 ,. * -~,il .-I . I1~ - .,  M l l i ~~nTmx It ht-r'.. ".Ilihat-o f. f6ta de4r moon avr &m-, --,a t- fw-  I I I L I I T I Ifl." I 111 On S  )N N T1 M`50 17062  KEETNULJM,Sergey Yovgenlysvloh; MALKIN. T,I., doktor biologichookikh neuk, redaktor; JMLIXAN, G.N., redaktor; KArM, To.T., tokbnl- cheskir (Mammals of the Black Be& and the Bes, of Azov; results of a biological commercial eta"] Xlekopit&lumhchie Chernego i Asovskego morel; opyt blologo-promyslovogo iseledovanila. Kookys., Izd-To kkademit nank SSSR. 1956. 285 p. OffaA 9: 6) (Black So&-NAmmals) (Asay. Bas, of--Xam&le)  WITM IMMI, I a WW"WW"Wv"__ . Diessmicating now and progressiTs methods, Stroitell no.1:18-19 A 158o (MIRA 11:2) Wf &,-.Building trades-Study and teaching)  EDFILI-MMS -1. Pioneers of the future. Stroitell no.8:15-18 Ag 060. (XIRA 13:8) (Building)  v I - .. , . . , . , I I , I. 1,11I.Ii.11~-1:, M I , , , I , -1 - % - . , . , I , - i * I ... - -1j . *. . . . . I . I -, AA aud - -: -" -., ~ , ' llrz- ',*,h - . - 1, 11 t,, ~:. r I - L . ' i1", Ti L, t . . I..m,.orjljv6 f! liern. : - -rr~assy nook I ~, , P~ 10)  ; i O W ow, W . I ~ ~oF I ~F a 1-1~"* *3 I IS 11 4 1, W - T 13 it is oe a 'it's 06O.J.P .1, M J. a W W . v s A--L I F _ , I 1 1, , 1 1. 1, 1 1 #61 a Cc op U 6 0 1 IJ 7 -- -------- A UP14 nolb" fe deter" dw "hestist point of . AA# an, I sm ergo The Still 1, . PA mang f ~ ~ M 90 I-** M. itf. R.1 Ill". No. M. 7 ~ ~NVIAI pp 9 t 'Waaws of it) a OW11111W titfrolni IWOV (Jimm Ill. 1 JA 13) a ractallic l4alf %"#I% '-A. width M. thick- 0 new 5 mm.) with a Ihir&W -"MRS to Ibc t"Allr Im (be i4d di 12 di i I ki ll ~00 r am., t" ans. it r n# jou e tmk aaal 13~ a uWa , .No, scWh 6 mvu.l wilk a mile Oil mm.l fill"Kiiiis (New" end of the ring; the 1114dr.4 OW 111,g k thrmW at.,. '11W boll 6 Kj"wd Into the plate. the ring pUvd am it ft) 0 x as to form so asualar tw4d. The I" pitcls rnWue pourrd see inaodallowedfasolklify, Thrpleirbil"wTew-rdandthe lt e w sd 0 b d I f j h b j j o i e q mrs," " w e = mt te n Ioll with p oo kw Ivuliff of tank" 11,41, livilr*1444 ti wthlh* I I " I IT 4 ~ WOW is IMS41M frost the mcalc., I., I..". . 'he flug COO too The Own"t wbe" the IKAt lmwlw- the tvftmn 4 the i"kef. Tkw sumbti cd wccxmb nsrf"poml- to a tvitafts 00 - to the Its"'fard 1 I 11 d 4 h 11 , w fe" fts Owt e femp. c "s tw"Is t mdlk%l of Krame issal Rw viva. attif the linte rrquirril I., o4trn the pitch in bet water (101% wm detd. r%peri- itatally and a t&W m**. The time r"Mited f-v this 1 "toff t"t is 12 - 13 min. A. 1 woo g I, a 0 0 O , 1 1 * 4 n n 11 4 14 M% k s a OW 0 a a 1 0 5 As a ~ a v d" - 140 l o 0 0 c * t :-T 0000 00 06 * 0 0 o a 0 9 0--; #0 4 0 4 0 0 0 0 0 00 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 ql~ * 0 0 # 0 0 0 0i  00,6000*00104960690 0 0000*000*00000000 a c 9 r 4 a Al L a 0 0 P%l 9 s 'I w yo "Illit -, - '"re. It el.oio: I 0: F so* 002 0 6F 00. 00. 00, 00. oq~ 0 : :1 0: 00*000000660000 Is 0 9090*0000000:000"*1:000000 a 11 a a Id 5 a v a 4 41 a a is a 0l ST cm 11, U Ts 8"1941111 00 ^00 'J" U "f4da" Puy louillisolp -ooiqwl nummung 00 WP,4).Itu onalivA #qj )a u0nenlWAS linum;iadxa AA!Iwjvdw,,.) sApnijul Isjuvld &4"w jo Imacta"d 000 Anj ip.wnniwq pull Itrnuala Ailviviaqwl 9)0 41#10U0,) 06 119911 jv 0 a *&O-m-K IVJPUftllvlAlq In"J*Junm Puw oil UNNIQUIPlutijol JV"UJPH S7 x f jr *0 oqwls '9t#l "t -U Ora -1 -1 Pum uvul '"M 'd 11 "Jignpul I"Is"04M an Ul 00 loo roe 0 of 10146 iftf ti-i sit 00  1! 151mal., 14 --- )i 1A ~%-Jp -00 A7 F- I. sea Ulu MON, L. D., M431Qrq+jUMOIhOd5 of Can- Ru"i".) (1 u I " . ' ng in AS co 174*7 ; 458 pp. evkwtd In tdkfOXt U . . f MOKOW1 CAwm. Eng. 13, No. 1. M(IM)- zo ce ce Gov 00 Got ce 0 moo boo 69TALLIMOCKAL LfICRATOM CLAISWKAIICX ISO.. "win, 4'.305 lose#, to 0.1 4.t ~f Boo ' net 11 4 Finn 11910018" 'j. w tilt 4 0 ; 00 0 0 0 0 0 0 0 0 0 & & 0 0 0 0 0  11)111 "ISO A ~ Ea A C A- I-L L-A AL r -U L-Al, 1A CC 91 C ail -t l -~~~IA #0 A[ -L j too got. "to Vo 00 4 j V* 2889. MKTHODS OF CONTROL IN THR CMNG INDUSTRY. (KONTROL' o I** 0 xcuouracwwoo PRoincesm). Glumn. L. D. and : (Moscows Motallurgiidat, 455pp.1 Chem. 00 snpgo Jan* 1940, Vaol* 56, No. 1. 292-293). The book was written for chemists working in coking plants in the lo use w f U.M.R. and its chapters on analysis and control refer to 00 several methods originally developed in the U.S.S.R., as off well as foreign methods, ivinumber of then German, adapted ago or modified by the Russians. The first part of the book 109 concerns control of coal concentration, as izaying of coal me* and methods of control of the coking procesal the second goo part Le devoted to separation and processing of gas and tar components. too I t AWAL UJISKAL.I.MINAT451 CLAWKA11" ago via* .4, 4-, 4141i$ M a., All RE)u C!, VP 0V Ic or a Kit a a It ZW4 I 0 1 00 0 lob 0 0 0 a 0 0 0 0 0  UWZMANI 4-ubovi 1)svydovne; AQIIjUAJ_ T#,A I lifoyam.. JUS, i-L., otya-styea- W redal-tor; SMAMCAYA, Te.K., rodAktor tzdAtallstva. - L S.S., redalctor izdatelletva; AUDRSTJCV, S.P., tekhnicheskI7 radaktor (laborator7 control of the by-product coke industry] lAborstoravi kontroll kokookhtaloheskogo prolsvodstva. lid. 4-os, perer. I dop. 11harIkov, Goseanucluxo-tal-chn.ild-vo lit-ry po cheraoi i torstnoi metallurgii, 1957. 635 P. 011PA 10: 10) (Coke industry)  5(2) 4UTHORS: Wellman. I. I** Zaboral L. S., SOV/32-25-2-16/78 r Xhizh ak, N. D. TITLE: The Accelerated Determination of Phosphorus in Coal and Coke (UBkorennoye opredeleniye foefora v ugle i kokse) PERIODICALi Zavodskaya Laboratoriya, 1959, Vol 25, Nr 2, PP 159-160 (USSR) ABSTRACT: It was tried to replace the time-consuming fusion of the sample necessary in the method suggested by M. Ye. Neymark and I. Ye. Kagan (Ref 1) and introduced by the GOST 1932-54 by a simpler method. For this purpose the method described by Zdenek (Ref 2) was examined, but the final determination was not carried out polarographically but photocolorimetrically with molybdenum blue., It was shown that the results obtained with this method of acid fusion are too low, i.e. it seems .likely that all of the phosphorus is not extracted. This means that the method is unsatisfactory. Investigations of a second variant, namely the incineration of the sample in the presence of air followed by a digestion in powerful acids furnished satisfactory results (Tables 1,2). The reproducibility is equally good, and the variations of parallel determinations Card 1/2 do not exceed the permissible limits. The analysis duration  ,The Aocelerated Dotermination of Phoi3phorun in noll/32-25-2-16/78 Coal and Coke is 1.5 hours, as compared to 4-6 hours in the case of the standard method. Furthermore, it is no longer necessary to use the "Eshka" mixture which must be used in the standard method. There are 2 tables and 2 references, 1 of which is Soviet., ASSOCIATION: Ukrainskiy nauchno-issledovatel'skiy uglekhimicheskiy in-titut (Ukrainian Scientific Research Institute of Coal Chemistry) Card 2/2  insh. Requirements concerning stone spreaders. Ayt. dor. 23 no-8:30 Ag l6o. (MIRA 13:8) (Road machinery)  M EDELIMAN, I.L.; BARABASII, M.L.; GLOVATSKAYA, Ye.P. Adhesion of polymer films with highly dispersed fillers to metals. Plast. massy no.1:59-61 165. (MIRA 18:4)   DEMINT IYEV, B.B.'o GOGINAVA. D'O-K*,. KANTOR, D*Mo, Inzhoner; inzhoner; inshoner; ,G.Yo. Inzhoner; EDILIKAN. -I.X,.inshoner. Automatic checkiog device for three-phase electric motars. rest. e;ektro rom._28 u 0:55-57 V (MI2A 1o.-6) P. q 157o 1. Moskovskiy oloktrosekbanichoskly sayod. (Blectrio intors)  ~uvjm T; ifa 1' ~I A-C-n- '1 -1: A d n 1 A---Q r-. C r, T u-n r, iA r I r -1-1 UL "-xLff-ruaL magneCLC rLaLa, The films producsd at tem- 3 0 C h t b f tied si n c7 Lwo EQUI VaAenr P-nov M;Iqno? r I v  -1 :jr,-r';~-,;, i- - Z,4~ :~~? ~ t . - -M3   if !he 'll., a ~q ist a'n a C, 'Ir Ada v effect V i I s hP ("CleriT Tj"! Z~  L 35588.Z5 A(-'(-F-SSInN' NR- AP4046087 the li~zht vector and the fields it was possible to investiCate the part ~~Iav,,-! ,n the E'4 OT H  ACCESS'_70.1 NR: AP/10232-'47 S/0,1 /02 3/003/05 5 ~)/05G 7 AV_~=.%': -ironokiy, LT.V. Savchenzko, M.K. S.V. ; Antinin, r.P.,; Trop'_a, Yu.D.; Bdal'ran, I.S. TiT7 Domain ac' tura o' forroma.-notic crystal:-,, f ahiskers, and chanZwl of -c*.-~a tqtructuro under tho influence o:L' different factor.; sympo_-;~'Um on PL:.:_-LaaGnotism and 27orroeloc4ricity hold in Leningrad 30 L:ay to 5 June 19337 SCj~iC_': AN' SSSIZ. Izvestiya. Soriya fizic%c~:-%%a, v.1-13, no.3' 1954, 559-567 TO-21C TIGS: crystal domain. structui-0, fil,-,; domain struc-, I ' u;-c:, domain stzi, turo vzriation, doz,..-.in influence, ircia crystal domains, iron :C11r. asy;=atric i.,o;i vAhisker do=ain ABSTMC-1: This papor sumrarizen a larL-c o~' concernin- tlic do- main struc-_z:i-z: of crystals, films, and whis%jr.;, ancl. its ch.-.r,--c under the influoncoli of fields, strcss, tcmocratura, and of dt;,,,agnotization. The ~toalcs (~i_-cusscd include the chanzcs In tho do,_-.-iiii of silicon iran crys- talz ma.-netization in various diroct_'onj; ',h-- o~'Xr'ct o:.' -.cchanical L;-.r;2Ss OZ!' tho ~o..:ala atructuro of silicon Iron crystals; the inz_'Iu.~nca cL' mcchanical stress  ACCESS ION XR: AP,11023407 ed to the other magnetization axis. The no, r--~,;ult is thus a 1090 rot-ation of the 1 dorains. The size of the doz-.ain= in cobalt increases with th.c rate of do- Vla[;.-Ictization by alternatirv-, field. is to thu Ironzation 0~ wcdfIl-) :;hapcd dornains, one within another. V,'hen a cobalt Afilm is cooled froa above ';,~c Ctxie point in a field frac an ccuilibrium domain structuro i,- not: olned. The domain strucluro of a th,n Iron :found to chanao lar-cly urall shUt durin[; Uraversal o:' an loop ill the pr~~Licnce of constant transverse field. 'rhis is no-,; in accord with tho expInna"Aca of theSe 15-~ metric hysteresis loops given by V.V.,~obalcv Gilstorczisa c,,~noo5n~,~kh forro- -magni.tny*1di plenok. ITL% i VT AN , 1061) c,.-, tic :)asis of a i~.c/dcl in which the mcd - 1- nifo;.-mly. C;.-i~,,.art.has: 9 figured;. ;magnetization was assw Uo rotato u IASSOCIATIOI'~: Institut Xiziki Sibirnkc_,j otdolicniya A..-dcmii nauIc S13SP(]a1--ti-wU-V,-0i S C SE &S, 11 of 2hyssicz, S,:Lbc,ri= D:Lri--1011.~ c Uut SUBMITTED: 00 DA'YL ACC~): IOAFi-34 I%XL; 00 i SUR COM: PH rMV .,61: 005 C(A-M-11: 003 Car4  TPF ,a 4 4 4 -471 AUITIVIT" AntIpInffIwF*: YefImGV'V~jwO--SjLffchG ~~Ilrzan I.S. nkoM.K.; Ed -F atru-0ture ard-hysteres mp loapwaf__ rrdEa- thi-n-fe- e t-I f, f A Idutd-ceted 7- 177 S cc Ond Al 11 --Lf n 1 Ott 9 V-1nos I Um on f- _smxy L SOU i1i f1iis i ~~14ipmx C - - - - ------------------- ? iron, cobalt po i -Sri a 7n T, ri-.- i"el3tigating the maznetic charactari-sti-r-g or riins it in Importart to know the Gffects of such stresses. Yet h1therto there haVe been nnI7 a f-cm rt'XJIe9 devoted to this fametor. Accordingly, the preveat sTWv ig-as T  1444  5-0961, I -M~FT 00 P" S-M! 000 C4.,7rd 3/3 NICL: UQ On=, G03 U 11  L 149�2z66 ACC NR: EWT(1)/EWT(m)/EWA(d)/T/EWP(t)/EWP(Z)/EWP(b)' AP5028556 IJP(c) JD SOURCE CODE: UR/0126/65/020/005/0683/0690 AUTHOR: Edellman, I. S. ORG: Institute of Physics SO AN SSSR (Institut fiziki SO AN SSSR) TITLE: Hysteresis loops of biaxial fexx%magnetic layers SOURCE: Fizika metallov i metallovedeniye, v. 20, no. 5, 1965, 683-690 TOPIC TAGS: metal physics, metal film, iron, hysteresis loop, magnetic field, magnetization, ferromagnetic material, free energy, single crystal ABSTRACT: Based on the theory of uniform rotation of magn ic moment, hysteresis loops were constructed for bgxeial ~~a ~n~~ic materials~ A comparison was made between the theoretical and p r ntal hys4eresis loops obtained during the mag- netization of single crystal~film~of ironl.,IThe theoretical calculations were bas- ed on the free energy-of the layers as a function of magnetization and field. Card 1/5 UDC: 539.216.2 : 538.23  1 14989-66 ACC NR: APS028556 where + is the angle between the axis of easy magnetization and M, M is magnetiza- tion vector and 9 is magnetic field vector. The critical curves (h Y as a function of hX were constructed from therelat ionship dIE/O(Pt-0, ~Fig. 1. Critical curve for a biaxial lay- er. h X, hY --arbitrary values of the ex- ternal field; hu hu--coordinates of the X., Y points of contact. The arrows indicate the stable positions of the magnetization vector M. The critical curves and the respective hysteresis loops were calculated for dif- ferent angles of field to the direction of easy magnetization. Card 2/5  L 14989-66 ACC NR: AP5028556 P, Card 3/5 6 Fig. 2 . Criti- cal curves, Ion- gitudinal and transverse hys- teresis loops for magnetization of biaxial layers for different angles to the axis of easy magnetization: a--O; b--20; c-- 35; d--450. The arrows indicate the boundaries of the positions of constant magneti-. zation vector.  L 14989-66 ACC NR: APS028556 These same curves were also constructed for the axis of easy magnetization for axial layers, with magnetization at 250 to the axis of easy magnetization as well as for the hard magnetization direction with simultaneous application of a constant transverse field h, having different magnitudes. The following three characteris- tics were noted for tho theoretical hyateresit; loops: 1) the presence of two axes of easy magnetization for a single value of the external field results in one to four stable states of the magnetic moment; 2) some of these states are not feasible, but the others are realized and result in a fundamental change in the hysteresis loops for changes in magnetization when compared to the uniaxial case; b) during magnetization in the hard direction a*sufficiently wide longitudinal loop is formed contra,rj to the case of uniaxial layers. Experij;iental data were compared to the theoretical findings. Monocrystalline iron layers were used in the formi of discs of 6 inm diameter, 650 angstrom thick, with a coercive force in the easy magnetization dimc-tion of 30 oersteds. Two perpendicular axes of the 11001 type corresponded to the easy magnetization directions (see fig- 3). These curves had all of the charac- teristics ascribed to them by the theoretical development. Orig. art. has: 6 figures, 7 formulas. Card 4/5  L 14989-66 ACC HR: APS028556 "it v5CI: Fig. 3. Hysteresis loops. obtained for themagne- Z. tiz :A ation of monocrystals of iron layers with a A coercive force of 30 oersteds; upper loops 5. 4 longitudinal, lower-- transverse. Angle a 4 A equals: a--O; b--20; U, b" ~~ c--35; d--450. L "T ,41 rd Card 5/5 SLM CODE:.20/--SUBM DATE: l9Nov64/ ORIG REF: 004/ OTH REF: 002 j  KIRENSKIY, L.V.; STJKHANOVA. R.V.; FYNIKO, V.G.; EDELIMAN, 1_51. Single-crystal films of iron-nickel alloys. Izv. All SS.R. Scr.fiz. 30 no.1:50-53 Ja 166. WIM, 19:1.) 1. Institut fiziki Sibirskogo otdeleniya AN SS.",R I Krasnoyarskiy goaudarstvennyy pedagogicheskly institut.  EDELIM,Vl, I.S. Theory of the magnetic reversul of thin ferromagneVic f.llnv,. Izv. Pll SSSR. Ser.fiz. 30 no.106-90 Ja 166. (MI?A 19:1) 1. Institut flziki Sibirskoro otdelenlya AN' SSSR.  .-JD/RW. ik~iO04466 SOURCE CODE:- UR/0048/66/030/001/00,rio/0031 AUTHOR: Kirenakiy,L,V.; Sukhanova,R,V.; Pyn'ko, Y.G.; Edellman I ORG: Physics Institute of the Siberian section of the SSSR Academy of S,:Iences (Instltut fiziki SibIrskogo otdolenlya Akademil nauk SSSR);,K ~ _~iate- - Pedagogical Institute (Krasnoyarok.gosudarstvennyy pedagogicheskiy institut) TITLE:Singlo-crystal6fllmsl~of Iron-nlckel alloys (Transactions of the Second All-Uj gypposium on the Physics of Thin FerromagnatIc Films held at Irkutsk 10 July to 15 July 1964 SOURCE: AN SSSR. Izvestlya.Beriya fizicheakaya, v.30, no. 1, 1936, 50-53 and Insert (facing page 43) TOPIC TAGS: fer romagnetic film, magnetic thin film, permalloy, iron nickel alloy, single crystal, magnetic anisotropy;magnotic coercive force, magnetic domain structure, ABSTRACT: Single-crystal 800 A films Of le-Vi alloys (5 to 95% Ni) were obtained by vacuum evaporation at 10-3 to -10-4 mm Hg onto the heated (250 to 4000 surface of an NaC1 crystal, although O.S.Heavens (Proc. Phys. Soc. 78, 33 (1961)) and A.Baltz (J. Appl. Phys. v 32t 815 (1961)) found that high vacuum (10-9 mm Hg) md aumling was neces- sary to obtain single-crystal films. No reason for this discrepancy Is suggested. The alloys containing less thal 20% Ni crystallized in a body-centered lattice with a lattice constant of 2.823 A and grew with the (001) face and (100) axis parallel to the (001) face and (110) axis, respectively, of the NaCl substrate; the alloys can- Card 1/2  - ------------ -------- L ij4o5_66 ACC NRj AP6004466 taining more than 20% Ki crystallized In a face-centered cubic lattice with a lattice constant of 3.576 A and grow with the (001) face and (100) axis parallel to the (001) face and (100) axis, respectively, of the substrate. Microtwinning was observed. The single-crystal films had two mutuaily perpendicular easy magnetization axes, this was not observed by SiChikazuml (J. Appl. Phys., 32, 815 (1961)). The anisotropy constant was positive for films containing up to 79.4% Ni and was negative for films containing 8279 Ni or more. The coercive force depended strongly on the temperature of the sub- strate during deposition; the coercive force of films of an undisclosed composition in- creased from 9 to 80 Oe as the temperature of the substrate during deposition was in- creased from 250 to 350C.. Films deposited at temperatures below 250C were poly- crystalline. The single-crystal films either consisted of a single domain with sub- structure, or were mottled. After demagnetization In a decreasing so field parallel to the hard axis the films had 900 domain walls in the direction of the hard axis and 1800 walls in the direction of the easy axis. When a mottled film was demagnetized along the easy axis, the spots became aligned along substructure lines; when the same film was demagnetized along the hard axis there appeared domain walls consisting of separate points. The presence of substructure makes it possible to determine the directions of the easy axes, The easy axis directions determined from the substructur4 agreed with those determined from the shapes of the hysteresis loops. OrIg. art. has: 5 figures. [1.51 CODE: 20/ :SUBM DATE: none/ --!ATf) -PRESS: ~,:?C)('  -3gj,j6__4A MCC,,) infol jD/Go A e-ffti - 060044ii- io~kz ~o6x: UR-/-0048/,66/030/001/0088/0090 AUTHOR: Edell man I law ORG: Institute of Phys1cs,81berian Section of the Acadesm of Sciences, SSSR (Inatitut f iziki Sibirzkog--o-otd-61-6--a-i-ya--A-k--ade--aii nsuk SSSR) 5 TITLE: Contribution to the theory of switching of thin ferromagnetic ! actions of the Second All-Unlon 8ymposlum on the Physics or-Thin Ferromia-gfieffic Films held at Irkutsk 10 July to 15 July, 196V SOURCE: AN SSSR, Isvestlya. Serlya fizicheskaya, v. 30, no. 1, 1966, 88-90 TOPIC TAGS: ferromagnetic film, magnetic thin film, magnetization, hysteresis loop, magnetic anisotropy, theoretic physics ABSTRACT: Critical curves separating the stable and unstable equilibrium positions of the magnetization are derived from the uniform magnetization rotation model for switching of film having two not necessarily equivalent easy axes. For a film having only one easy axis the critical curve is the well-known astroid; for a film having two equivalent easy axab the critical curve is a regular eight cusped figure. Several less symmetric critical curves are given for films having two non-equivalent easy axes, The construction of theoretical hysteresis loops from the critical curves Is discussed briefly and a series of loops for a film with two Inequivalent easy axes Is presented. Card 1/2 e_1  T 153~6.66 ACC RRI AP6004476 For magnetization along either of the easy axes the longitudinal hysteresis loop is rectangular and there to no transverse loop; for magnetization in other directions the longitudinal loops are narrower, their upper and lower branches are curved, and ,transverse loops appear. The longitudinal hysteresis loops along the two inequi- ivalent easy axes have different widths. Orig. art. has: 6 formulas and 3 figures. iSUS CODE: 20 SUBM DATE: 00 ORIG. REF: 002 OTII REP: 004  L 09128-67- EWT(m)/EWP(t)/ET1 IMO) JD/HW I ACC NRi AP.6M617 SOURCE CODE: UR/Oi2C/66/022/00033//0033880 0391 I ;AUTHOR: Kirenskil, L. V.; Pyntko, V. G.; Sukhanova, R. V.-, SivkoV, N. I.; Pynlkq,.- G. Y.; E A. S.; Kan, S. V ; syrova. N. I.; Zvegin sev, 4%. 0t _L ORG: Tnatitute of Physics 60 Ak_ESSR (Institut riziki 60 AN 666R), Krasnoyor gogical. Inatitute (Kra arskiy pedinstitut) TITLE, Epitaxial films of jronl-lickeil'2nd cobalti[report presented at the Cc I on P~;sics of Ferro- and Antiferri~ag-netism.-Fve-rdlovsk, 5-7 July 1965) - Fizika-metallov i metallovedeniye. Y. 22, no. 3, 1966% 380-391 TOPIC TAGS: magnetic anisotropy, epitaxial growing, hysteresis loop, metal film ABSTRACT: The authors study the spitaxial growth of iron, nickel and cobalt films thermally vaporized onto ionic crystals split in air'and in a vacuum. It is-shown the: -4 mm Hg, the surface state is changed when the substrates are heated in a Vacuum of 10 with a favorable effect on epitW. The phase composition of the film may be control- led by proper selection of the substrate. The fields of anisotropy of the films are measured and the effect which application of a magnetic field during vaporization has on the magnetic anisotropy of the films is studied. The domain structure of thelfilas anU its dynamics are analystA and the results are used as a basis for explaining ibe shape of hysteresis loops. The coercive force is measured in films of various thick- ness. It is shown that the coercive force of the films is always much Is& than the field .-f anisotropy and In approximately inversely proportional to the naturation.mg- netizatton. Orig. art. has: 13 figurem,:1 table, 5 formulas. SUB CODE: n,.20/ BUNN DAM 3Wul65/ Wig RV: OOh/ OTH FjWj 007 Card 1/1 not  PERLI, S. B.j ~~W~,-TA.; FALICHIKO Yu. R. Brea)dng in an electrostatic filter for automatic shaft kilns. Moment 29 no.2tig-19 Mr-kp 163. (MIRA, 16:4) L Yuzhgiproteement. (Dust collectors) (Cement plants)  PERLIP S.B.; ELELIMAN, I.Ye. Cooling clinkers in recuperators of rotary kilns. TS)ment 30 no. 2:11-12 Mr-Ap 164. (MM 17:5) 1. Gosudaratvennyy inatitut po proyektirovaniyu tsementnykh zavodov -Y yuzhnvkh rayonakh SSSR.  PERLI, S.B., kand.takhn.naukj BERUMTM, L.A.S. inzh.;_ EDELIMAN,, I.Te.j, Who Reviews and bibliograplq. TSoment 31 no.504 S-0 165, (MIRA l8slO)  LUSTINEC, JIrij HADACOVA-POKORNA, Vera; KAMINEK, Wroslav; EDELMAN, Jack; PETRU, Eva Wdomization of carbon atoms In the glucose molecule and changes of specific radioactivity of 14co2 liberated by the callus tissue of Daucus carota L. from glucose-6- and 1-14C., Biologia plantarum 6 no. 3s2O9-218 164. 1. Institute of Experimental Botany, Czechoslovak Academy of Scionces, Prague 6 - Dejvice, Na evicisti 2 (for all except Edelman). 2. Department of Botany, Imperial College of Science of Technology, London S.W.7, England (for Edelman).  P/014/60/039/011/003/009 A221/AO26 AUTHOR; Edelman, Kazimierz TITLE: Requirements of the Chemical Industry in Regard of Measuring In- struments, Elements of Automation and Their Scurce of Acquisition PERIODICAL: Przemysl Chemiozny 1960, Vol- 39, No. Ili pp. 657 - 661 TEXT: The chemical industry is one of the most important users of measur- ing instruments and of automation elements. In L;ome fully automated plants the costs for instruments are around 25% of the total invested capital, and in the USA this figure is even higher, approaching 40%. In Poland, cost of instruments equals about 1% of the value of machines and installations, but in some plants being built at present, this figure approaches 2 - 7%, in one case even 14.4%. The 5-year plan for 1961 - 1965 foresees a general increase of this index to 4%. In view of this fact, the establishment of local instrument producing industry is of paramount im- portance; otherwise the demrnd would have to be covered by imports. The chemical industry is a rather difficult customer for measuring instrument manufacturers, because a ) it requires a large variety of instruments for different parameters and ranges, b) it usually takes only small series of the same type instrument, c) it r~Y,A iA  P/014/60/039/011/003/009 A221/Ao26 Requirements of the Chemical Industry in Regard of Measuring Instruments, Elements of Automation and Their Sources of Acquisition often requires instruments being corrosion and explosion proof, d) it calls for Instruments of great accuracy and, it possible, of small size. Further, the au- thor lists those parameters which have to be measured or regulated and the respec- tive instruments for doing it. For temperature measurements he lists 8 types of thermometers, for pre3sure measurements 6 types of manometers, for fluid-flow meaB- urements 9 types of flow-meters and on top of this level gauges, weighing machineE, automatic analy:~-ers - of which he lists 10 types - viscosity meters, automatic pH meters, hydrometers and clocks. For automatic regulation pneumatic Installations, often linked with electric ones, are most commonly used. For complex automation digital and analog computers will be used, provided the results of the experiments, carried out at present in the oil refinery at Jedlicze, turn out satisfactory. In principle, all Instruments for the Chemical Industry should be made in the country but so far production of same is not yet adequate as to quantity and quality. The author lists a number of firms and enterprises in Poland producing various instru- ments. Eventually, the author arrives at the following conclusions: Measuring instruments and elements of automation should be manufactured by the heavy industr)& - , - A.  P/ol4/60/039/011/003/009 A221/A026 Requirements of the Chemical Industry in Regard of Measuring Instruments, Elements of Automation and Their Sources of Acquisition while the chemical industry should concentrate on elaborating prototypes and on manufacturing small series of instruments, typical for this industry. As a matter of fact, there is already the Zjednoczenie Aparatow Pomiarowych I Optyki (Union of Measurin-, and Optical Instrument Plants) which already has prepared plans for start- ing the fabrication of instruments and automation elements in 196o - 1965, but it Is doubtful whether it will be put into operation in time. Heavy Industry, too, has plans for the organization of a complex enterprise for automation, including design, fabrication, assembly and repair, but no real progress was made yet. Further, the author lists the following desiderata as regards instrument producers: 1) Heavy Industry Bhould extend Its production plan for 1960 - 1965 and, If possible, put the plants Into operation even ahead of achedule,; 2) this plan should Include the production of a universal type of automation, applicable also to chemical Industry; 3) instruments produced should be made in corrosion-resistant and explosion-proof versions; 4) the design of instruments should be up-to-date; 5) the quality of the instruments should comply with standards; 6) in the subject of testing proto- types in the industry, the manufacturers should co-operate with their clients; 7) spare parts should be available; 8) instrument production plar4s should be attain-  P/014/60/039/oli/003/009 A221/AO26 Plans of Chemical Industry for Introduction of Automation able to the customers, who in turn will be able to work out their own plans accord- ingly; 9) heavy industry should organize a complex automation enterprise; 10) all instruments should be supplied with technical working instructions; 11) catalogues of manufactured instruments should be printed in adequate numbers. It would be very desirable and usefull if periodic bulletins would inform about new instrument types or designs. On instrument imports, the author suggested following improve- ments: 1) To make the most of it; 2) to shorten delivery terms; 3) to standardize some types of imported instruments; 4) to have a centralized foreign-trade organi- zation, which will deal solely with Importing and exportlng of instruments and automation elements. There is I table. ASSOCIATION: Departament Mechaniki i Energetyki, MPChem- (Ministry of Chemical Industry, Department of Mechanics and Power Supply) Card 4A  of th-t Stnictura Forna"i-n arri 1'.jA4tjC-"la4'UC PrGpOrLICS ir, UIG qnd --;Qls Allimirl.-Im Oxide." Thesis ~or de6rce oil' Cared. Cilemicitl Sci. Sub 22 elar 50, ;_I~Qscow OrtAer o-f L',enizi St;ita U imeni N. V. Lmonosov Sumnary- 71, 4 Sep 52, Axsertations Pro- . r "-y- I sent~!~,, for jet;rces In Mience and znglneer;%..- in in 1)~U. ir~:tr, Vccncrnyay2 P'loskva, j.~n-tc L9=,-).  P,MLIMAIT, L. USSB/Chemistry - Thixotropic Mixtures Janfreb 51 "Structure Form'ation and Elastoplastic Properties of Structures in Oil and Aqueous Suspensions of ri Aluminum Oxide, L. 1. Edellman, P. A. Rebinder., Chair of Colloid Chem, Moscow State U "Kolloid Zhur" Vol XIII, No 1, pp 64-77 Investigated elastic, plastic, viscous, and thix- otropic properties of aq and oil suspensions of A1203) and effects of admixts of surface-active substances, electrolytes, and colloidal fraction of Al(OH)3 sol on these properties. LC 164T25  r4tjl~ -9 CA Alo t'.A. 48. 18W. The visiting ARI'M 4 ft,14 were pmo. hilt kidtalreb of Al discvtAte sod sling Im .1 mml)~ fi.~io T11:0,~ :0=9 -pp"'i-120trovic 31 .0 imk NACI. IMAM 111014, N4,w!II. or 001"M mak Nesilm pet 1, T)w "wTh. of the "k betweem 111111 "MK"Itie CYNIM"I SO "kiCh MS. an 0 scookom wrive. Iv fur"d hoot five ecinill. rwtkm. can Imo 0 by memo of 6 bdtpnmknt pusineters: K,. Ft. sod Ft. S. A lowre"ad from 7m) to 16.00r). J% LAM to Vivipm ijoq. em.. qh from 2 X UP to 13 X .101 flow - 0 to IM dyw/sq. cm. whem the comm, of bKmmdftonO.nnthtol).OWM. Tlw C40M. home 0-.2% to 1% Increaved all Mme Sd So" =4 1e on, the bid J% wto Independent of the step I I a tine disturbame took pleft. After several dbtwbmmm of On mumicto The gels cemst to be Imm"606a. bbhwWm d wed lob was Im StRoctive Omm that of kut phk A". of A" lowhke to W I In. Wooed JL go god ft ONO Simathim wore Was. at about 11% Al.0. 1; b7A% 4 passed tbnmfb a rate. at 11% AhOv w ow aw litiol 49 a -1 , at kww comm. at AIA. Tbm ellocla wom dm to tlw dmiullne emitat of 9W AIA: electrodkiyead AISCiS made wk into thisetro* firk oben its too . was 11% at nwv, 112-  AUTSORS: Idellman, L. I., Sominskiy, D. S. 20-21"-45/63 TITLE: The Influence of the Addiiions of Surface-Active Substances on the Intensity of the Vibrational Grinding of Cement (Vliyaniye dobavok poverkhnostno-aktivnykh veahcheAty na intensivnost' vibratsionnogo izmelleheniya teementa) PERIODICAL: Doklady Akademii nauk SSSR, 1957, Vol. 114, Nr 4, PP- 844-847 (USSR) ABSTRACT: The effect of the decrease in firmness conditioned by adsorption was discovered and studied in the papers of Rebinder and assistants regarding various solid substances. It was observed when grinding, fire-proof materials, 4jes ancl ores in a moist state. The introduction of some surface-gotive Bubotanoeq makes it possible to riise the dispersion of cement considerably. Besides being ascribed to the effect of the decrease in firmness due to adsorption, the increase in grinding intensity is sometimes also ascribed to the desaggregating action of surfaceactive adAttions. The authors investigated the influence of such additions on the crushing intensity at the grinding of Portland-cement in a laboratoX7 Card 1/4 vibration mill. The hydrophylio additions of the sulfite-  The Influence of to Additions of Surface-Active Substances 20-114-4-45/63 on the Intensity of the Vibrational Grinding of Cement alcohol slop (calcium lignogulfonates), and the hydrophobic additions of sapon-naphth (mylonaft ), acidol saponnaphth and oleinic acid (Oll-196 of the weight of the cement) were studied. The introduction of surface-active substances intensifies the dispersion of cement. Thereby the specific surface is enlarged. The hydrophobic additions are more active than the sulfi4ve-alcohol slop. Thereby the time of cement grinding may be shortened on the average by 50%. This increase of surface occurs at the expense of the augmentation of the fine particle fractions (below 5P of radius)* The influence of a surface-active substance (oloic acid) increases only within a content of between 0,1 to 0,5% at 20 minutes of continuous crushing. Higher percentages become effective only in the case of one hour of crushing. Parthermore, the influence of the acting efficacy of the said additions upon the crushing kinetics of cement was examined in dependence on the frequency and the amplitude of vibrations of the millsubstance. The influence of the surface-active additions is clearly marked only in the domain of the optimum parameters of vibration crushing at a Card 2/4 sufficiently high frequency and amplitude. From this it may  The Influence of the Additions of Surface-Active SubstanceB 20-144-4-45/63 on the Intensity of the Vibrational Grinding of Cement be concluded that the above-mentioned grinding intensification is not due to the prevention of aggregation of small particles of the finely disperse material, i.e.'not by its stabilizationt but by the primary effect of decrease in oolidityt in so far as the stabilizing (desaggregating) action of the additions is apparently not connected with the grinding mechanism. The adsorption character of the intensification is confirmed by the dependence on.the concentration of the addition. Based upon experimental results it may be said that the chief factor of the intensification is the sufficiently'high frequency of the vibrations. These results are in accordance with the opinions of Rebinder and his assistants on the role of substances which decrease firmness in the case of periodi- cally destructive influences upon solid matter. There are 2 figures, 1 table, and 18 references, 8 of which are Soviet. ASSOCIATION: VoesoyuzW nauchno-issledovatellskiy institut novykh problem proizvodetva stroitelsnykh materialov nabs" tonkoso Card 3/4 izmellcheniya (All-Union Scientific Research Institute for j  The Influence of the Additions of Surface-Active Substances 20-144-4-45/63 on the Intensity of the Vibrational Grinding of Cement Now Production Problems of Building Material Based Upon Fine Crushing), PRESENTED: December 30, 1956, by P. A. Rebinder, Memberf Academy of Sciences, USSR SUBMITTED: December 30P 1956 Card 4/4  '5(4) SOV/69-21-1-18/21 AUTHORS: Sominskiy, D.S. TITLE: To the Evaluation of the Aggregate Stability of Suspensions, (K otsenke agregativnoy ustoychivosti suspenziy) PERIODICAL; Kolloidnyy zhurnal, 1959, Vol XXT , Nr 11 pp 126-131 (USSR) ABSTRACT: A method has been developed for evaluating the stabi- lity of a suspension aggregate by optical density measurements. It has been shown that the method per- mits the selection of the optimum dispersion media and the surface active agents for the production of the most stabilized disperse systems. Using this method, the optimum dispersion media have been selected for finely ground powders of limestone, granulated blast-furnace slap, iron minium, and cement. Optimum surface active agentshave also been found for aqueous suspensions of Card 112  SOV/69-21-1-18/21 To the Evaluation of the Aggregate Stability of Suspensions. talcum and sulfur. The results obtained coincided well with data from densitometric analysis. There are 3 graphs and 3 tables and 7 references, 5 of which are Soviet, 1 English and 1 German. ASSOCIATION: Vsesoyuznyy naucb,~, 9 *yatellskiy institut novykh stv 1 problem proizvod V.40A ej ov na baze tonkogo izmelL cheniya. (The All-Union Scientific Research Institute of New Problems of Production of Building Materials on a Fine Grounding Base.) SUBKITTED: March 12, 1957. Card 212  EVEL IMAIN, L. I . , kird . xh I m. nn uk; RA Ylr!~-Il, ',, 13. , In. MelthrA of estimating thn degme of aggregation of powders during nlntf~rlng. Sbor. trud. VNI.'N.SM no.P;146-1111 163. (Y:RA 17;9)  -EP41MAN-j L*I.j KHODAKOV, G.S. Sedimentation analysis of disperse systems with continuouB recording of the weight of accumulated deposit in the centrifugal field. Koll. zhur. 26 n0,31380-385 MY-Je 164. (MIRA 170) 1. Vaesoyuznyy nauahno-isaledovatellakiy institut novykh atroitelinykh materielovp Moskva.  KH(*T-'AN-*;r G.S.; HVFLIYAN~ 1'.1. ~Icat-..typc photoelectric recording devicte for annlysle of variance !n a centrifugal field, Zav. lab. 30 no.8;1024-1025 164. (PIRA 1813) .1 .. Vspioyuznyy nauchno-Isale-dovatel'skly inatItut novylk~ stroitelf- n:,kh witerialov.  FRIBYLISKIY, Ivan Stapanovich) EDELIMM, M., red. [The Black Sea Economic Rogion] Chernomortikil okonomiche- skii. Odesoa, Odemokoe knizhnoe Izd-vo, 1963. 146 p. (MIRA 17:5)  L 36334-66 ENT(k)/EW"r(d)/EWP)h)/Ee(l)/EWP(v) DrIGD ACC NR: AT6012900 SOURCE CODE: UR/0000/65/OOO/OOO/Oi29/0234 AUTHOR: Gurevich, K. M.; Edollman. L. M. ORG: None TITLE: Professional aptitude and throughput of operators SOURCE: Slatema cholovek I avtomat (Man-autornaton systems). Moscow, Izd-vo Nauka, 1965, 229-234 TOPIC TAGS: psychology, man machine aptitude testing, automatic control equipment ABSTRACT: The authors study professional aptitude of operato~A. The main determinant of professional attitude In operating automatic control equipmentlf~ behavior under emer- gency conditions. The main task Is to d termine what psychological characteristics of man are indicative of the possible loss of self control. After considering many instances of known appropriate reactions to emergency conditions, it was proposed that inadequate behavior of a worker under emergency conditions was in all probability determined by certain natural data such as the characteristics of his nervous system, excitation process, and the balance of nerve processes. Research anti-emergency training is studied. This' Card 1/2  L 36334-66 ACC NR: AT6012900 training consists of placing an operator In a simulated emergency state. The behavior of the operator under simulated emergency conditions is observed by a technician and a psychologist. 30 such experiments were performed. Six cases were observed where gross errors were performed. In these six cases confusion was the most evident factor contribut- Ing to these errors. In 9 out of the 30 cases correct behavior was observed. In 15 cases insignificant errors were noted. A relationship could not be established between correct behavior under emergency conditions and work complexity or special qualifications of the operator. Operators were subjected to special psychological study in order to deter- mine special characteristics of their nervous systems. Bases have not been determined for studying throughput which Is one of the main components of aptittide. It it necessary to continue the study of the professional aptitude of operators. SUB CODE; 05 / SUBM DAM 0ZAug65- Card 2/2,~~__  EDELMAIT, M. -1=7~~~ Input-output tables in the Soviet econom7. Stat azemle 40 no.l: 26-35 Ja f62.  f ~ VJ MUSIAL, Vlodsinters; IMIM, Karek; JMINWICZ. Luba; PAIWIM, ISIUA Clinical considerations on so-called lower nephrone nephrosts. Polski tygode Isk. 9 nOO51-52:1618-1622 27 Doe 54. 1. Z II Kliniki Chorob Wownstrznyoh Akademil. Nedvosnaj w Lodzi: klerownikt prof* dr mod, Jerzy Urabowski. (IOM Muq" MUMOSIS' aline aspects)  E DEL, H A Af, If AM E K MUSUL, Wlndximiers; ZDALMASP Narek Avate nsphrosis with sk--ia in Infected abortion. Gin. polska 25 no.lt2l-31 Ja-Xr 154. 1. Z II Kliniki Chorob Wevnetrzoych Akademii Medvosnej w LodzI, Kierownik: prof. dr red. J.Jakubovski. (ABORTION$ GRIKIYAL, complications, *anuria & usphrosis) (AMIA, etiology and pathogenesis, *abortion, criminal, with nephrosis) (NAMMSIS, etiology and pathogenesis, *abortion, criminal, with a-ria)  Admintattallon of thlowcatsmide In theillum melt poisoning. M. Cdchimn and T. Liplec (School Aled., Pol.01d). 74#-,3Z2'-,Fvkn, _qj.i Claim 11 3, 95-7(IDM)(in Lnglish). -Thinacetatfilde (1) reacts with TWO* Irt blood serum Vj Pam to produ" a vot. of TI.S. - futravenuttis I saved the lives of 9 of 10 rabbits which bad been given a lethal dose nf 1trSO4, but was intibctive agAnst 2 or 3 times the Itthal dust, In isct$ar I was also ineffective. In 4 csLie,, or. hum" 1, travenous I caused improve- ~A ment, wil k, neurologic symptoms, but It s did not t I of halt. Prelimillarv InvestipfflCM9 AL fiedicatte fmayPso be elficsirlw5us fit Vb atid fig prilsonfrig. L. A. Pursglog,_ _40f  XDBLW, Marek: NOWICKA, Helena; SZA17, Jadwiga --a-MMOUMPA" A case of stomach cancer with "metric metaetasis to humeruses. Polski tygod.lek. 10 no-103310-313 7 Mar 55. 1. Z n Kliniki Chorob Wevnetrzrqch A.H. w Lodzi; kierowniki prof. dr Jerz Jakubowski. Lodz, ul. Sterling& 1/3. TSTOKACH,.neoplaame, metilstasic to humerus) (HUMUS, neoplasms, metastatic from carcinoma of stomach)  ESIMAN, VArek Tvo cases of thallium poisoning cured by thioacetamide. Polski tygod.lek. 10 no.151465 12 Apr 55. 1. Z 11 Kliniki Chorob Wevnetrzrqch A.H. w Lodsi; kisrownik: prof. dr Jerzy Jakubowski. Iods, u1. Starlings. 1/3. (THAUIUN.,polsoning. ther. thioacetamide) (AORTIC ACID, dailvativee, thioacetamide, ther. of thallium, pots.)  XDZIMAN. Harsk; LIKE. Tadeusz Therapeutic application of thisacette acid snide in heavy metal poisoning. Polski tyged.lek.10 n9-27:883-884 4 July '55. 1. 9 11 111niki Chnrob Wevastrzzych A.M. w Lodst; Iriorownik: pr*f. dr Jerzy Jokubowski I s ZakladtL Chonli Niserganicsnoj i Amlltycznoj A.M. w Ledzi; Kierowaik: pref. dr Tadouss Liplac). Lodz, ul.Sterliage. 1/3 (POISONING, heavy astals,tbar..t*acetic acid amid*) (ACIVIC ACID derivatives. thloacatic acid amide,ther. of heavy metal pole.)  3DILKANO Kerekg BZWI Jokdwigft Nalignant exophtbalmose Polskle archemede wown. 28*mo,2321!~-243 1958 1* 8 11 3alnikl Chordb Wm"trxnych AsHe w Lodzie Kierownikt prof dr nauk mod. Je tak-abowskie' Adres witoral Udl, Sterlinga 113. 11 Iliniks Chor8b Winm. AsHe (HrPJRTMOIDIBK, case reports (POI)