SCIENTIFIC ABSTRACT URZICEANU, S. - USACHEV, D.N.

TJ.IZI(-,KAIIU, 3. Some aspects of the organization of a tool workshop in the Strung,11 factories. p. 71 (MHTALUR= 31 CON-3371".-,TIA DE MANSINI. RUMANIA. Vol. 8, no. 5, MaY 1956-) SO: Monthly List of East European Accessions (EFAL) LC, Vol. 6, no. 7, Ju1Y 1957. Uncl.  SBMAKOVA, V.I.; YUZHAKOVJ%, 11.11.; REZHICHENKO, V.G.; GLEBOV, I.T.; VOLKOV, A.S.; URZLYA. 11.Ye.; BMTMV, P.A.; RYSI, G.I.; VORONINA. M.N.; GVOZDINTS- KIY, I.N.; VARAKSIUA, M.P.; MASTZRSKIKH, M.A.; GOYCHAROVA. V.A.; BICHEVINA, A.U.; SGROKIN, M.A., red.; GRI111, Ye., tekhn.red. (Economy of Altai Territory during the past 40 years; a statistical manual] Harodnoe khozisistvo Altaiskogo krais za 40 let. Sovetakoi vlasti; Btatiaticheakii abornik. Barnaul, Altaiskoe kaizhnoe izd-vo. 1957. 110 P. (MIRA 11:3) 1. Altayskiy kray. Statisticheskoye upravleniye. 2. Statistie-he- skoye upravleniya Altayskogo kraya (for all except Sorokin, Grin') 1. 3. Nachallnik Statisticheskogo upravleniya Altayskogo kraya (for Sorokin) (Altai territory--Statistics)  US. Alyakeandra. Flourish, White Russia. Rab. i sial. 30 n0-7:2-3 J1 154. (White Russia--Economic conditions) (MLRA 9:4)  US, Aleksandra. Mmoma Twenty glorious years. RAM sial. 32 no.12:2-3 D '56. (Women-Impiqftent) (KM 9:12) 1  US, Aleksandra [Us, Allaksandral Bright hopes. Rab. i sial. 34 no.5:4 My 158. (FIRA 11:6) (Vienna--Women's International Democratic Federation--Congresses) IN,  US, Aleksandra Visiting our Chinese friends. RabA sial. 36 no-5:12-13 M7 l6o. (MIRA 13:10) (China-Women~---lbployment)  US, Alsksandra Visiting our Chinese friends. Rab.1 sial, 36 no.6:12-13 Je 160. (China-Women) (KDU 13:7)  US, Aleksandra Pavlovna; IEVINSKIY, B., red.; ZUBOVSKAYA, V., tekhn. [Book of useful advice]Kniga poleznykh sovetov. Tasbkentj Ob"edinennoe izd-vo "Kzyl Uzbekistan," "Pravda Vostoka" i "Uzbekistoni Surkh.,11 1961. 63-1 p. (MIRA 15:11) (Heme economics) (Hygiene)  US7 1 A:Lekmdra[UBP Alialceandral I- - --- ~ -1 . ..-I- - --.- Yes. We are happyl Rab. i sial. 37 no-3:1 Mr 161. OCM 14:3) (women-Employment)  US, Aleksandra For the peace and happiness of the children of the entire world. Rab, i sial, 37 noo 5sl2-13 My 161. (MIRA 14:4) (Child welfare) . allll  Z300 ;L4.0ir 83333 S11 17/60/000/008/009/020 AOO2/AO0l AUMORS: Us, N.P.V Kuzlmenko,__P.Ye., Us, A.N. T=: Combined Electric Welding of Aluminum Alloy Parts PERIODICAL: Mashinostroitell, 1960, No. 8, P. 17 TEXT: The authors distinguish the following methods of welding aluminum alloy parts: a) the flux is applied directly to the welding rod and the place of welding (method of P.N. Benardos); b) the coating Is applied to the electrode rod (method of N.G. Slavyanov); c) the coating is applied to the electrode rc,d and the welding is performed with a graphite electrode (combined method). At the Khar'kov "Serp I molot!' Plant the combined method was introduced for restoring parts cast of A A-9 (AL-9) and A A-10 (AL-10) aluminum alloys because the first two methodshave certain deficiencies. The introduction of the combined welding method reduced the cost of producing the CM)J (SMD) diesel engine and eliminated rejects in casting and mechanical processing. The graphite electrodes are 200- 300 mm long and 12-18 mm in diameter, depending on the thickness of the me-Lai to be welded. Welding is performed with 250-350 amps. d.c. of reversed polarity. The aluminum welding rods contain 0.90% copper, 1.81% iron and 6.4% silizon and Card 112  83333 S11 17/60/COO/008/C)09/020 A002/AOOI Combined Electric Welding of Aluminum Alloy Parts have diameters of 8-12 mm at 4-16 mm thickness of parts to be welded. The coating applied to the welding rods consists of 15% sodium chloride, 50% potassium chlor de and 35% oryolite. For each 100 weight parts of the dry compound, 25- 30 c~ water are added. The coating is applied with a brush to the welding rods, dried, and heated at 140-1500C for 30 minutes. Investigations of welds performed with this coating showed the monolithic structure, compactness and strength of the seam. There is 1 figure. Card 2/2  I ACC NRI SOURCE' TODE ;--Wn43-1970~V609*166�"3706�3-"; 111,"VENTM Telegin, A. A.; Rybakov, V. S.; Us- B. V. ORG: None TITLE: A device for measuring and monitoring the temperature of heated bodies from a distance. Class 42, No. 181344 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 9, 1966, 93 TOPIC TAGS: temperature measurement, remote control, thermal radiation detector, photoresistor ABSTRACT: This Author's Certificate introduces: 1. A device for measuring and monitoring the temperature of heated bodies such as cutter surfaces from a distance. The operating principle of the unit is based on thermal radiation from the surface of the given body. The instrument contains a lens for focusing the radiation, a sensing element -vhich converts variation in thermal radiation to variation in an electric signal, and a diaphragm which limits the exposed area of the sensing ele- ment. The sensitivity of the instrument is increased by using a lead sulfide photo- resistor as the sensing element. 2. A modification of this device in which accurac,, in focusing on a given object is improved by mounting the sensing element in a sleeve which may be easily removed and replaced during focusing by a sleeve With a light source and a lens for projecting a spot of light on the area to be measured. Card  1-t-tsensing element; 2-sleeve SUB CODEI 14, 13/ SUBM DATE: 20May64 Card  UMS Ty BUTORA, B.Ye.; SOKOTJDV, P.A.; BATATEV, D.N.; SERUM, N.M.; SH K. , K.A. TYAPKIN, M.Ya.; SHIRIMV, V.A.; PIROGOV, N.I.,- FSDOROY, N.A.: GOLYASHKIIT, G.S.; KUZ'14!K, A.P.; AKULINICHEV, V.P.-brigadir; GORBERK0, Ye.M.; BYSTREVSKIY, L.M., inzh.; STEPAIUV, P.S., brigadir; Us. ib *' brigadir-sudoeborshchik, deputat Vorkhovnogo Soveta SSSR-, ft~I Vs P.D., olesarl-aborshchik; FINOGENOVA. N.Ya., tokarl; LER14HR, M.; ALEKSEM, R.Ye.; SUMIN, K., starnhiy mantor; 0STAF'YKV, A.I.; TROFI14DV, B.A., inzh.; KOVRTZFXIN, V.F., inzh.; MOISMV, A.A. , prof.; GOLUBKV, N.V.; WGILEVICH, V.I.; AIWRTUTIN, V.I.; AITDRITEVSKIT, H.I.; MATSKXVICH, V.D., dots. Shipbuilders prepare for the 21st ExtraoraiwLry Congress of the CPSU. Sudoetroenle 25 m.1:1-25 Ja 159. (MIRA 12:3) 1. Predsedatell Gosudarntvennogo komitnta Soveta Ministroy SSSR p0 audostroynniyu, ministr SSSR (for Butoma). 2. Nachallnik upravlonlya sudostroitellnoy promyshlennosti Lensovnarkhoza (for Sokolov). 3. Direktor Baltiyekogo sudostroitellnogo zavoda im. S.Ordzhonikidze (for Balayev). 4. Nachallniki tnel-hov Baltiyakngo audoctroitel'nogo zavoda im. S. Ordzhonikidze (for Sergeyev, Shunakiy). 5. Nachallnik mekhanichaskogo teakha Baltiynkogo audostroitellnogo zavoda im. S. Ordzhonikidze (for Tyapkin). (Continued on next card)  BTJTOMA, B.Te.---(continued) Card 2. 6. Brigada kommunistichnskogo truda Baltiyokogn sudontroitallnogo tavoda iri, S. Ordzhonikidzn (for Smirnov). 7. Glavnyy inzhannr Admiraltey- skogo sudostroltallnogo zavoda, LenIngrad (for Pirogov). 8. GlavrLvy inzhener nudootroitellnogo zavoda Im. A.A. Zhdanova (for Fedorov). 9. Ilachallnik elek-trodnago tnaklia Sudontroitallnogo zavoda in. A.A. Zhdanova (for Golyasbkin). 10. Nachallnik tt;ekha kowrinisticheskogo truda nudostrottellnogo zavoda im. A.A. Zhdanova (for Kn2l min). 11. Malyarnyy tankh suelostroitellnogo zavada im. A.A. Zhdanova (for Akulinichav). 12. Glavnyy inzhener Nikolayevskogo sudostroitel'nogo zavoda Im. I.I. Nosenko (for Gorbonl-o)jj,lTil-olayevskiy nudostroitelln" zavod ilr~. I.I. Nosenko (for Bystrovskiy, Us, Ustinov, Finogenova). 14. Sledarno-aborochnaya brigada Nikolayevskogo sudostrnitel'nogo zavoda in. I.I. Nosenko (for Stepanov). 15.- Zameatitellnachallnika konatruktorskogo byuro sudostroitall nogo, zavoda "Krasnoye Sormovo" (for Lerner). 16. Glavrqy konstruktor konRtruktorskogo by-uro suda- storitelinogo zovoda "Krasnoye Sormovo" (for AlekBoyev), 17, SuC)- stroitel'zw7 zavod "Krasnoye Sormovo" (for Sivukhin) ' 11. Direktor audostroitallnogo zavod "Leninakaya kuzniteall (for Ostaflyev). 19o Sekretarl partkoma TSentrallnngo nauchno-iagledovatellskogo ifistituta (for Trofimov)a (Gontinued on next card)  BUTOM, B.Ts.--(wntImzee-) Card 3. 20. Predesdatell Laningradskogn oblagtnogo prAvlaniya Mauchno-takhnichs- skogo otdala audostroitallnoy procqshlonnosti (for Moi"eYev). 21. Glav- Wye inzbenery Konstruktorskogo b7uro (for Golubev, Andr7utla). 22s GlavWy knnstruktor Kona trukto rokogo ITuro (for Mogilovich). 23. Nachal'nik TSnntrallnogo tekhniko-knnatruktorskogo byuro (for Andriyevskly). 24. Zamestitel' direktora Leningradakogo korable- Rtroitellnogo in6tituta po uchebnoy chasti (for 14atskevich). (Shipbuilding)  RYSHMVA, L.K.; Us, L.A. 7~~" Iffect of cancerogenic hydrocarbons on regeneration. Uch~zV* IHOU 51:97-102 154. WRA 11:11) (Regeneration (Biology)) (Carcinogens) (Urodela)  1-1.1-1.11-1 1 . I.! I'll, -11. 11. -t-- "The Hol.-monopoietic Significance of the Basophilic Cells of the Anterior Lobe of the Hypophysis." Theses of the Proceedings of the Annual Scientific Secsions -- 23-26 March 1-95) (All-Union Inst. Fxpt. Endocrinology) From the Dept. of Histophysiology of the Ukr Inst. Expt. Endocrinology, and from the chair of Histology of KharIkov Medical ~nst. (11d. of the D---pt. and Chair, Prof. B. V. Aleshin, honored scientific worker.  US, L. A,, Cand Bio Sci -- "Condition of the basophille I ~eFzta t k ;- ~ 1, "1 cells of the rA lobe of the hypophysis during changes 61~ Its hormonopoiesis." Khar1kov, 1961. (Min of Higher and Sec Spec Ed UkSSR, Khar'kov Order of Labor Red Banner State U im A. M. Gor1kiy). (KL, 8-61, 238) - 1 -117 - - IMA -  ALESHI-N, B.V.; USY. ~,A.-- - Effect of aminazine on the function and structure of the anterior lobe of the pituitary under certain experimental conditions. Probl. endok. i gorp, - 6 no. 3:32-45 14y-Je 160. . NIRA 14:1) (CHLORPRCHAZINE) (PITUITARY BODY)  ALESHINY B.V.; TSARIKOVSKAYA, N.G.; US, L.A Correlation of form and function in the thyroid gland altered by goiter. Trudy Ukr.nauch.-issl.inst.eksper.endok. 18:7-31 161. (KMA 16: 1) 1. Iz otdela gistofiziologii i klinicheskego otdeleniya Ukrainskogo instituta eksperimentallnoy endokrinologil. (GOITFR) (TMOID GUM)  US, LeAe Changes in the hormonopoiesis and cellular co=poaltion of the anterior lobe of the hypophyais. Trudy lbr.nauch.-isal.inst. eksper.endok. l8a250-255 161. WRA 16tl) 1. Iz otdela gistofiziologii Ukrainskogo instituta, eksperimentall- noy endokrinologil. (PITUITARY BODY) (PITUITARY HORMDNES)  MOSOLOV, N.I.; SEMAK, I.L.; MAKSAKOV, V.Ya.; US,__L.,A,__ Effect of the type of feeding of young cattle on the thyrotropic and gonadotropic functions of the hypophysis. Nauch. dokl. VY9. Bhkoly; biol. nauki no.1%79-83 164. (MIRA 17:4) 1. Ftekomendovana otdelom kormleniya sel'skokhozyaystvennykh zhivotnykh Nauchno-issledovatellskogo Instituta zhivotnovodstva Lesoatepi i Poleslya.  S 0 3 7 -:59 - 2 - __4 4 19 Translation from: Referativnyy zhUrnal. Metallu, a, 1959, Nr 2. p P:18 (USSR) AUTHOR: Us [US, M. P.] TITLE: Electric-arc Welding of Components N - 'e of Aluminum Alloys (Elek- trosvarka detaley iz alyuminivevykli sit avov) in Ukrainian PERIODICAL: Mekhaniz. sil's'k. hospod., 1958, "_" pp I I - I _' ABSTRACT- The author describes various met, 's of repairing comporents made of Al alloys Al-4 and SK-3305C means of electric-arc weld- ing with graphite and metal electrod(,3 (E), the filler-metal arid the welding rods being of the same metal. Welding with graphite E's is performed with or without flux if direct, current of reversed po,arity is used; in the case of alternating cu. rent, no flux 's empioyed. Weld- ing with metallic E's is performed either under direc'. current of reversed polarity, the E's being coated, or with alternating current in conjunction with an FIF stdbilized etec-,ric-arc welder. Composition and methods of preparation of iluxes and electrode coaangs are described in the article. Optimal welding conditions ire indicated. A. B. Card 1/1  US, M.P., kand.takhn.nauk Soldering aluminum without flux. Hekh. sell hoop. 9 no.9:15 S '58. (MIRA 11: 10) (Solder and soldering)  US, M.P., kand.toklin.nauk Building up defectively, cast machine parts. 11--,kh. sill. honD. 9 no.10:13 0 '58. (141RA 11:10) (Electric wolding)  310: Knizi-man -a 10 1 -.~n ,,i*ee o~ Doctor of Technical -ciences For De,-  SOV!137- ~;Q-3-6053 Translation from-. Referativnvv zhurnal. Metallurz-.Ya, ~9;", Nr 3 IUSS17"I AUTHOR: Us,N. f---- TTTLE- Welding of Components Made of Alurninum Alloys (Svarka detaley iz alyun-iiniyevykh splavov) PERIODICAL: Nauchn. zap. Khar-kovsk. in-t mekhaniz. s kh , 1958, Nr 81, pp 96-100 ABSTRACT: Components made of Al allovs AL-4 and SK-33050 can be repaired by means of oxy-acetylene or electric-arc welding (W). Gas W is per- formed in a standard flame either without flux or in conjunction with fluxes not containing any Li - Carbon or metallic electrodes may be employed in electric-arc W. Tables of the composition of fluxes and electrode coatings are presented. Electrodes and W rods (3, 6, 7, and 9 mm in diameter) are manufactured by chill casting metal from melted rejected castings made of alloys AL-4 and SK-33050. lables for W conditions and the mechanical strength of weld metal in alloys AL-4 and SK-33050 are given., The methods described are employed in repairing cylinder heads of automobile models M-20, GAZ-51, Card 1/1 ZIM, harvester engines U;-MA, as well as in correcting casting de- fects ~.n Al components. V T  US, 14.0 kapd, tekhn. nauk Blectric-are velding of aluminum-allo7 parts. Avt. transp. 36 no.10:20-21 u 158. (MIRA 13:1) (Blectric welding)  Z300 63333 S/1 1716G1(1-0r-,681V6,6 Z6 A002IA001 AUTHORS: Us, N.P., Kuz'menko, P.Ye., Us, A.N. TITLE: Combined Electric Welding of Aluminum Alloy Parts PERIODICAL: Mashinostroitel', 1960, No. 8, p. 17 TEXT: The authors distinguish the following methods of welding aluminum alloy parts: a) the flux is applied directly to the weldfng rod and the place of welding (method of P.N, Benardos); b) the coating is applied to the electrode rod (method of N.G. Slavyanov); c) the coating is applied to the electrode rod and the welding is performed with a graphite electrode (combined method). AT, the Khar1kov "Serp i molot!' Plant the combined method was introduced for restoring parts cast of A A-9 (AL-9) and A A-10 (AL-10) aluminum alloys because the first two methodshave certain deficiencies. The introduction of the combined welding method reduced the cost of' producing the CMA (SMD) diesel engine and eliminated rejects in casting and mechanical processing. The graphite electrodes are 200- 300 mm long and 12-18 mm in diameter, depending on the thickness of the metal to be welded. Welding is performed with 250-350 amps. d.c. of reversed polarity. The aluminum welding rods contain 0.90% copper, 1.81% iron and 6.4% silicon and ,!it Card 1/2  83333 S11 17/60/000/008/D09/020 A002/AO01 Combined Electric Welding of Aluminum Alloy Parts have diameters of 8-12 mm at 4-16 mm thickness of parts to be welded. The coating applied to the welding rods consists of 15% sodium chloride, 50% potassium chlo de and 35% cryolite. For each 100 weight parts of the dry compound, 25- 30 c~ water are added. The coating is applied with a brush to the welding rods, dried, and heated at 140-1500C for 30 minutes. Investigations of welds performed with this coating showed the monolithic structure, compactness and strength of the seam. There is 1 figure. Card 2/2  DMITHIM) L.N~,IUSj (Nev equipment for ttia prelludinar- I y polymeric materials3 re-,Dw of forvign patent!! on tntv basic branches of the industry) Novos) oborudovsnie d3.-q% predvaritillnol abr&bG4)%-.i fnrmaerykh pollmernykh uiati:--Ialov~, obzor inostrannykh patentov pp~a osnuvrvm otrasliam Trnmy~J-.-, lermcsti. Moskvap TSer.1,7:,. nbuchnc-Issi. In-t, pateritno'- In- formatsii i -tekhnikr,-ekc-i-... lr,~!Ierlovanilp .1963. 3.',, p.  A ( --I sn"fol" :11 ' -* - P. El !t' PromVIS 317MWJ#g F-ttyl teb=s Ghn to cmW the qwfity of the batch am de. "bed. M.V.C.  us, S.F. I VLADIMIROV, L.V., ZhKHI,',l From# 15, No. 9p 19-22, (1938)  TRZTIYAKOV, G.; US, V.1 TORUS, Kh.; VLADIMIROV, K. Reliable protection. Pozh.delo 3 no.8:8-9 Ag 157. (MT.RA 10:8) 1.YALchallnik Medvedovsko7 mezhkolkhoznoy dobrovollnoy poxharnoy druzhin7 (for Tretlyakov). 2.Komandir otdelenlya Dobrovollnoy pozharnoy druzhiny kolkhoza imeni Lenina, Novo-Titarovskogo rayona (for Us), 3-Nachallnik Dobrovollnoy pozharnoy druzhiny kolkh02a imeni Lenim, Gelendzhikskogo rayona (for Toros). 4.Fredoodatell kolkhoza imeni Kirov&, Plastunovskogo rayon& (for Vladimirov). (Kuban--Fire prevention)  BIBIKOV, I.; DEREVYANKO,, K.; KAZACHKO, V.; KIRICHMO I.; OCHER, N.; MACHUKHO., A.; NABATNIKOV, F.; SOKOLOVO II.; SIV6KONfY9.t US V - SHCHIGAIZVY V.; BURAVENKO$ N.; KOVSHAROV, S.; SOKOIDV, I - '0- 0 ZAGORULIKO, S.; TSYBA, M.; FOMENKO, I.; LYAKHOVEISKIY, M. Let us help famers grow an abundant crop. Grazhd. av. no.3-*3 Mr 161. (MIFLA 14-- 3) (Aeronautics in agriculture)  us, V. I. Principle of g.-oup acknowlwlgment In remote control. Irr.AN Us. SSR.Ser.takh.nauk no.2:18-26 '59. OaRh 12--7) 1. Inatitut anar etiki I avtomatiki AN UzSSR, lRemate control)  us, V. I. Telemetering water flow in channels by a pickup operating without power sources at the control point. Izv. AN Us. SSR. Bar. tekh. nauk no.6:22-25 160. (14IRA 14:1) 1. Institut energetiki i avtomatiki AN UzSSR. (Transducers) (Hydraulic engineering)  1~,joo,o (1613111013116("1) AUTHOR: -Us V'& 27104 S/167/61/000/002/001/003 D224/D301 TITLE: Design principles of remote signal systems using po- sitive elements PERIODICAL: Akademiya nauk UzSSR. Seriya tekhnicheakikh nauk. Izvestiyaq no. 2, 1961, 3 - 12 TEXT: In the present article the author discusses the use of tele- phony lines for remote signal systems, in which the signal is pro- duced by the connection or disconnection of passive elements at controlled pointo When a long telephone line is available for sig- nallingg a voltage source Uo is connected to it at the central point, through a relay with zo interval resistance. By means of connecting or disconnecting a resistance z2 at a distance 1 along the linep the operation of relay z 0 can be obtained, which means that a signal can be produced at the control point. The distance Card 1/6  27104 S/167/61/000/002/001/003 Design principles of remote ... D224/D301 at which such a system will operate depends on resistance z 2, on the parameter of the line and resistance of the relay. If the line p.arameters are Rv Go L and C per Km and Ibreak K (K,-, 1) then for distance z0 (I - k) Z,2 (k - 1)2 + OZ3, (5) arth M-2-1 is obtained which has a physical meaning if inequality ___ _Z0 I/ Z2~ (k - 1)'+ 0 0< 2kz, < is satisfied, for which conditions maximum distance max is ob- tained as  27104 3/167/61/000/002/001/003 Design principles,Of remote ... D224/D301 ZO (I - k) + Z2 t 1)2 +4k__I arth V 0( ZI. (7) W, which for zo < Lc reduces to 10 arth -ZO (I - k) + If _ik~, mat 211Z, which gives aft acourate enough result for all practical calcula- tions, e.k. for a 4 mm dia. steel wire tranimission line (z. Card 3/6  27104 S/167,/61/000/002/001/003 Design principles of remote 1)224/3)301 4690 ohm for d.c.) fed with a d.c. current through a relay with z0 = 100 ohm and with k = 59 the maximum operating distance is tmax = 100-36 kme The limit distance of the system for zo = 0 is. given by arth ~P. 7 A 0% ~ 0%.%0% 04 Oft 0% 0% 0 (9) It may be seen that the operating distance is increased and the relays should be chosen accordingly. The above formulae were deri- ved assuming that the line is being short or open circuited. This would make the line inoperative for other functions which it has to perform. The signal, thereforet in many cases has to be formed not by short-circuiting the line butby connecting a certain re- sistance z2 across it. In this case tmax can be derived as 1 arth X (11) ax Y Card 4/6  S/16 61/000/002/001/003 Design.prin6iples of remote D224 YD301 -1)2 (Z +Z )2 +4kZ 2+47, z Y, (1-)-,) (zo +z2)+-\/(k 0 2 c 0 2 2kZ + 2 0 (k - 1) C+ zc Such a syst,&m, although not requiring any power supplies, has a rather limited capacity, i.e. for a two wore telephone line only one signal can be transmitted. The capacity may, however, be in- creased and in many ways at that. The first is by introducing 1-1he amplitude discrimination for signals. The second applies when more than two wires.are avoidable and consists of permuting pairs of wir~.,s and the third consists of ut;JI.rip, diode switches as shown in Pig. 4. The'last, system has been successfully tried in a code sig- nalling system for remote control.pf the water level in canals -.Ath a total nunber of 44 = 256 signals with the transmitted accuracy of measuremen ts of - 0. 4 /'a, at a distance of' 60 km. There are 6 f igu- res and 6 Soviet-bloc references. -Card 5/6  S/167/61,/000/00')/001/003 Zil Prilicil lea of romiot~., D22,'T/D301 ASSOCTATION: ~'nstitut eneroctiki i avtoma'dld AN UzSSR (Institute of L'nere.*#.,;tIcq and Automat.-*on, IS If-,.SSF.) SUBMITITED; Ociober z1, 1960 g 4 4-Itic. 4. "J Card..6/6  SAVVIN, S.N.; Uq., V.I. Dual stand pipes for pouring, petroleum products into tank trucks. Transp. i khran. nefti no.10-.19-21 163. (~!Ipj, 1?: 9) 1. Krasnodarskoye upravleniye Glavnogo upravleniya po transportu i snabzheniyu neftlyu i nefteproduktami RSF.SR.  ACC NR, AP6015254 SOURCE CODE: M/Ul 25 6-6/0!)0/00 5 /00 7 6 ('00 11, AUTHOR: Tabidze, A. I.; Pinchuk, N. I.; Us, V. I.; Yusi*evich. Z. V. ORG: none TITLE: $-tress corrosion cracking resistance of austenite chromium-nanganese steels and alloys in chloride arlutions ID : SOURCE: Avtomaticheakaya avarka, no. 5, 1966, 76-77 TOPIC TAGS: low nickel steel, stainless steel, chromium steel, manganese steel, cor- rosion resistance, chloride / lgaLG30 steel, lKhl8NIOr, austenitic steel ABSTRACT: Austenitic. stainless steels of the 18-8 type are prone to stress corrosion cracking in chloride-containing solutions whereas high-Ni alloys (containing >40-45% Ni) resist corrosion of this kind. In this connection it was of interest to ~nve atigate the corrosion resistance of these alloys in chloride solutions on partial eplacement of Ni with Mn. Accordingly, the iuthora investigated alloys of the 14G30 types containing from 1 to 23% Ni, which, to enhance their resistance to gene- ral corr sion, were additionally alloyed with 2.5-3*35% Mo, 0.23-0.3% Ti, 0.25-0.38% Al and 0.23-0.4% B. Variously stressed specimens of these steels were tested for stress corrosion cracking in boiling (+154*C) 42% MgC1 solution, on first undergoing heat treatment (1100*C for I hr, cooling in air). Specim;ns of-M18NIOTpustenitic rnrA 1/2 UDC'! 621.791t620.191!669.15-194  ACC NR. AP601525 steel were also investigated for purposes of comparison. Findings: the stress corro- sion cracking of lKhl8NlOT steel in the MgCl solution sets in vithin the first 24 hr,, and the same happens for specimens of Khl4G38 steel containing 8-23% Ni. On the other hand, specimens of Khl4G30 steel containing