1. ~M60RTY, NT. V.; P:7,90CNIN891Y, IA, Z.; Engs. 2. do'45A~' (600) /,. lathes-Safety Appliances 7. Safety device and attachment for woodworking lathes. Engs. Dar. i lesokhim. orom. 1 1952 9. Monibly List of Russian Accessions, Library of Con*gress, June 1953. Unclassified.  1. POBOCHIY, N. U. EINIG. 2. USSR (600) 4. Woodwork 7. Imitatior, Wood WlrvirT. Der i lesokhim. prom. 1 no.2. 1952. 9. i-Ionthly List of Ilussian Accessions, Library of Congress, "arch 1953. Unclassified.  1. PODDC- IY, N. U. : YA. Z. E.'~G. 2. u3sii (6(,,o) 4. Woodwork - Ukraine 7. Work practices of Ukrainian furniture Dactories. Der. i lesokhim. prom. 1 no. 6. 1952. 9. Monthly List of Russian Accessions, Librar-f of Congress, 1'4ardh 1953. Uriclassified.  POBOCHY, IN. Yu., Eng. Plywood Manufacturing high-grade plywood sheets. Der. i lesoltim. prozii. 1, 111-z;- 7, 1952. MontKy List of Russian Accessions, Library of Congress, june 1953. Uncl.  7T, POBOCr-:II IL U-; _IESOCHTI: ..Iy, Ya. Z.; i!]n-s- Furnil.ure Induls'-'rf JM2-'tation furniture triri Del% i iesokhiri- )ro-~. 2) 1%). 2, l,)5':". 1 9. Monthly List of Russian Accessions, Library of Congress, 1; lay -1953. Unclassified.  i" -POBOCHI1, LT. Yu., ~,ng.;. PF513CIONSKILY, Ya. Z. Grinding and Polishing 0 Electrified pollshing- apparatus. i lesokhim. prom. 2, No. 4, 1953. 14ontbl List of Russian Accessions, Library of CongreSs, June 195'~. Uncl. C,  POPOCHIT, N.U., inzhener; PESOCHINSKIY, Ya.Z., inzhener. Work practice of Ukrainian furniture factories. Der.i lasolchim.prom. 2 no.9:27-29 S 153. (MIaA 6:8) 1. Kinisterstva lesnoy I bumszhnoy promyshlonnosti USSR. (Ukraine--Woodworking machinery) (Woodworking machinery--Ukraine)  POBOCHIY,N.U., inzhemer Work practices in Ukrainian furniture enterprises. Der.prom.4 no-7:21 J1'55. (MLRA 8:10) 1. Glavukraebellprom (Ukraine--Furniture industry)  CZECBDSLOVAKIA STRUHAR., M; MANDAK, M; POBDCIKOVA, K. Chair of Galenic Pharmacy of the Pharmaceutical Faculty UK (Katedra galenickej farmacie Farmaceutickej fakulty UK), Bratislava (for all) Bratislava, Farmaceuticky obzor, No 4, 1963, PP 153-156 "Content of Some Galenic Preparations of Rhubarb Roots."  90W6_6A (M)1WA(dVWP(t) LIP(c) -M M. A'P6oo8816 SOURCE CODE: UR/0135/66/000/003/0028/0030 Qv) AUTHOR: Safonnikov, A. N. (Candidate of technical sciences); Poboll, A. A. ORG: Institute of Electric Welding im. Ye. 0. Paton (Institut elektrosvarki) TITLE: Electroslag welding of large austenitic chromium-nickel steel rings SOURCE: Svarochnoye proizvodstvo, no. 3, 1966, 28-30 TOPIC TAGS; austenitic steel, cin-omium steel, nickel containing steel, steel .ring, ring 'welding, electroslag welding ABSTRACT: Conventional forging and rolling of large stainless-steel rings with a cross-section up to 900 m2 presents serious difficulties and sometimes is simply c impossible. Therefore, a method for making such rings by electroslag -welding has been developed and introduced into practice. According to this method the ring is assembled from several forged or rolled segments which are bent to a required radius. A mold is built around each joint. The welding is done with a flat electrode and a calcium fluoride-calcium oxide flux. With careful assembly the deformations can be kept to a minimum. The method can be used for rings of any diameter and cross section. Rings ofthe same diameter can be put on top of each other and ~,fflded as a single ring. The method has been successfully used in welding MANIORteel rings 3000 and 900 mm in diameter with respective cross sections of 195 x 195 and 60 x 110 mm, and Khl8NlOT Ateel rings with cross sections of 220 x 220 and UDC: 621-791-793:669-15-194 Card 1/2   -PMU "l-L.B." TWKIN, Ye.A. ?,shoo from the ancient stronghold near Chaplin. Tootel AS DSSR. Ser.bllal.nav. no.2tl37-140 160. (NUA 1317) (ounriff Molow-Irisus, MSIQ  DAMASKIN, B.I.; POBLLI, O.N.; POLUKRIN, V.P. (Moskva) Investigating the effect of the drive system of sewing machines on their efficiency. Shvein. prom. no. 6:10-14 NZ 165. (MIRA 18i12)  POBOLI V.K. Electr=ugnatic removing of parts from electrolytic tarok,-. Biul. tekli.-skon.infom.Gos.iiaucli.-issl.J-nst.nauch. i. tekli.inforni. 1,6 no.10:34-35 163. (MIRA 16:13.)  VODOLAZKIY, L.A.;Jq~O~A~"_Ye.V.; SOLOVIYEVA, V.P. Use of the TEK-1 tele-electrocardiograph in studies of the physiology of work. Trudy VNIIMIO no.3:146-147 163 (MIRA 18:2)  STEINBACH,14.; LAZ Ali 0 ill C I , Kiri; m; 1-1- 1I:OJ3JP-tt,! E5,DELM(IU, Rais a-, CRABSGU,T.; BATUO M11"U, G. Physico-chemical compo.9ition, fatty acid conto-A and thElTe-peut-IC value of somo vegetable oills, fish oils and marLnje mmmal oils of our cowntry. Stud. cercot. ired. intern- 5no-5:555-5(4, 164 1. institulkul de medicillia Lnterna al Andemi-I R piibl~~cli poixiare Ronlne si Ministend S,~inalrxtii si Prevederflcr Sociale (ftr StiE-Jnbach, Lazarovivi). 2. ln~-Ututul de alimentura 83- Mbriistenilul Industrie-I AlimmLare (Vor -111e, 1"'Obr-ran, 11c5c.,le-Ecra., Graescu, Balanes,-,v).  61" RULUNIA CHIMION k. Dr;-, FOBORAN, C. Chemist Clinical Laboratory of Neurosurgery at State Hospital o. 9 "Prof. Dr. Gh. Marinescull (Laboratorul Clinicii de neurochirurgie a Spitalului de stat nr. 9 "Prof. Dr. C iGh. Marinescu"), Bucharest. Originally presented 30 Mar 63 at a meeting of the Clinical Laboratory Section of the Bucharest Branch of the U.S.S.M. (For all). Bucharest, Viata Medicala, No lZI 15 Jun 63, pp 847-854 '!"Re"marks:On Alkaline Phosphatase Determinations By Means of the Lohman-Jendrasic Method." A  ,'POBORANj V.,, prof*; GONTEANU, Zoe, asist.; MATEI, I., asist. Dimensioning the facp distances of the inner dump steps in the Roviari mine. Rev min 15 no.2.*73-79 F 164.  LRTUj, N-# ing-; FOBCUR Y ing.1 UIP"NO C.p ing,j FAUR, E., ing. Study of timballogr Ohoioe of optic section and prefll&-eMpes of the working,drifte of layer 3 and the roof galleries of the thin layers in the Jiu Valley mines. Pt. 1. Ray min 14 no.4: 145-158 Ap 1163.  BLIAS,R.; IUSTIR.A.;_PONR~IXV. , WIISAR,G. Research 'an the aittletreptolysin 0 titer (ASIO) in acute articular rheumatismIn children. Probl. reumst..Bacur. no.6:77-84 159. I (RHMMTIC MIR, blood.) (ANTISnJPTOLYSIN, blood)  POBORAN, V. New technique in the methods of exploition of coal deposits. P. 3, (Revista, Minelor. Vol. 8, No.-l. Jan. 1957, Bucuresti. Rumania) SO: Monthly List of East EuroDean Accessions (EKAL) Le. Yol.6. ho. 8. Aug 1957. Uncl.  POBORCHAYA, L.V. Turbidity currents. Okeanologiia 2 no.5:849-&3 162. MU 15:11) 1. Moskovskiy gosudarstyannyy universitet imeni Lmonosova. (Turbidity)  BUDAK, B.M.; VINOGWOVAJ, Ye.A.; GLASKO, V.B.; KONONKOVA, G.Ye.; Problem'bf unsteady watAr movement in a reservoir solved by an electronic computer. Meteor. i gidrol. no.12:14-21 D,163. .(MIRA 17:3) 1. Moskovskiy gosudarstvennyy universitet, fizicheakiy fakulstot.   FOBORCHIYP V.S. inzh. Automatic control of vater level in small boilers. Prom.energ. 18,no.2s22-25 F 963. (MMA 16x2) (Boilers) (Automatic control)  POBORICKY Vsevolod Sergeyevich; ROZENDERG, V.N., red.; RkEGLI"~, D.P., I I.A.. teklm. red. [E erience in the automation of steam boilers fired with galsOpyt avto: atizatsii ptirovykh kotlov, raboteiushchikh na gazoobraznom toplive. Leningrad, 1962. 22 p. WIRA 15: 10) ,(Boilers-Firing) (Automatic control) (Gas as fuel)  SENIKIN, V.I., inzh.; POBORCHIY, V.S., inzh. Analysis of equations of the dynamics of a drup bailer with ; natural circulation, (TrudY] TSKTI 36til-46 160. (MIRA 14 4) (Boilers)  - POBORGHIY, V.S., inzh. DynamicB of mechanized fuel-bed burners. I '60o (Boilers) (Furnaces) o (Trudy] TSKTI 36:61-84 (Min 14:4)  ,,,POBORCHIY, V.S-; SHAROVA, Z.S. Automatic control of small boilers operating on gaseous fuels. Nom. energ. 15 n0-12:23-29 D 160. (KM 13:12) (Boilers) (Automatic control)  POBORCHIY, V.S., inzh. I * Automatic control of air feed in small furnaces with flame jet in the fuel bed. Bnergoomashinostroenie 6 no.3: 12-16 Yx 6o. (MNU 13;6) (Furnaces)  PHASE I BW SOV/3856 Leningrad. Tsentrallnyy nauchno-issledovatel'skiy kotloturbinnyy institut imni Ij, Pblzunova Avtomaticheskoye regulirovaniye (Automatic Control) Moscow., Xasboz,, 1960. 138 P. (Series: Its: Sbornikp kn, 36) Errata slip inserted. 3,500 copies printed, Scientific Ed.: V.D. Piveno., Candidate or'Technical Sciences; Ed. of Publishing .. -U.-- House: N.Z, Sixonovskiy; Tech, Ed.: Te.A. kaya; Managing Ed. for Literature on the Design and Operation of Machinery (Leningrad Divisionp Ikebgiz): F.1, Petisov., Engineer. MUM: The book is intended for personnel in planning organizations and plant design offices and specialists in automation. COVERACM: This collection of 6 articles deals with automatic-control operations in shell (drwm-tnx) boilersp particularly those in vhich steam conditions am maintained by imptilses. Among the topics discussed am fuel-f3aw controlp superheat temperature regalationj, function of the feed regulator I overnorl, Card 1/4  Automatic Control S07/3856 combustion control in mechanical st~Dkers with grates., and the effects of leakage and clearances in serrobbosters on control. The treatment Is mathematical,,0,and a number of theoretical formilis are deduced for compmting definite parameters of control operations and steam-flow processes. Empiribal results proving the validity of such fornaas are cited. No personalities are mentioned, References follow each article, TANZ OF C Pivent., V.D. [Candidate of Technical Sciences]. Automatic Coubustion- Control System Operating on the Rate of Variations of the Controlled Parameter 3 The author's nodification of an ordinary control system is based on the use of double-acting regulators of the Pblzunov type,, intended for 136sitive self-balancing processes. It is proven that such systems are also applicable to negative [out-of-balancel processes, which are exxtomatically corrected'so as to regain the proper ratios between the quantities under control. This "flowmatic" type of control operates on the variations in the rate of steam flow from the boiler. Card 2/ 4  Antomatic CoAtrol sov/3856 Sentkin,, V.I.# and V.S. Pbborc4iy [Enginedral, Analysis of Combustion Equations P.;latIW-to-fhe Dynamics of Natural- CiratUtion Shell 19ilers Ll The analysis is attempted for the case when stem Is generated by a succession of impalses,, large enough to caspenoate for intervals between impulses. Plormulas are deduced to determine the relationship between two different vapor Ovolumes" under the surface of evaporation, that is., the differential ratio of vapor under evaporation [in cubic meters) to the quantity of vapor obtained from the boiler [in kilograms pr second], Ayzenshtat, I.I. [Engineer]. Ways of Improving the Autmatic Temperature-Control System for Superbeated Steam in Sbell Boilers 47 The article outlines the principles of iitermediate desuper- heating and suggests a three-inpulse controlled-superheater system instead of the usual two-inpalse type. Equations for the computation of the control parameters for a "malti-impase" regulator am given. Card 3/ 4  Automatic Control SOV/3856 Pbborchlb V.S, Dynamics of Mechanical Stokers With Zorw C60iiit-i-on-of _?Uel 61 The author deduces a number of mathematical formulas for conditions controlling tbi combustion of fuel by layers (zones), as in chain-grate stokers an& stokers of similar design. Sentkin., V.I. Natural Vibrations in the Pressure-Control System for.Xazutlin Tubes] 85 1~e-nature and frequency of natural vibrations end conditions causing the pressure-control regulator to vibrate are analyzed and determined. Xirpichev, A.P. [Engineer]. Experinental Investigations of the Effects of Clearances and, Laps in the Cutoff Valve of a Servomotor., Including the Effects of Oil Leakaje, on the Sensitivity [Controlla- bility] of an Indirect Control Regulator 3.16 This article is an analysis of Itydraulic servawtors operating on oil. The nature and magn-1 of losses and their effect on automatic control are evaluated. Curves are plotted to trace the degree of such effects. AVATIAZZ: Library of Congress Card 4/4 AC/pw/mas 7-25-6o  POBORCHIY, V. S. - ---. ._- - -, - __ ...... Cand Tech Sci - (diss) "Study of the dynamics of automatic control of low-power steam boiler containing a flare-layer fire chamber." Leningrad, 1961. 10 pp; (Ministry of Higher and Secondary Special- ist Education RSFSR, Leningrad Polytechnic Inst imeni M. I. Kalinin); 150 copies; free; (KL, 5-61 sup, 192)  POBORGHLYI V.S.. imsh. Complete automation of small boiler 4 no. 6:10-16 Je '58. installatt' na. Xnergomsishinostroania (MIRA 11:8) (Automatic control) (Boilers) A 4  For tckuptlc~ b y Com -bin&Uonol 0 -jv-qMtmjh 7' (Problems and t7pecavu of oun-Iry, 1[45t, 211-)218). The vz&cAoAlovnk May. origlins of tb-3 procm zra descHb--d =d its a plication t* the production cf spacial qualiti?.s of tat.-el for w. ~lilch tha O.H. is unsuitable tnd tho capacity o1 B~b~lc himntes mgufficiimt. It ah(mld be suitable !cr produa-mit of tran-Oartner and miloy SLODIS for -laxse Ugota whftm wafunnily. jWlec-L d:~Oxidal;o and high purity ara rucrairsd.  Z/046/61/000/004/004/009 D007/D102 AUTHOR Pobor4il, Frantis"ek, Doctor, Engineer TITLEt Long-term strength properties at elevated temperatures of welded joints of superheater tubes of Inexpensive high- temperature austenitic steels V PERIODICAL% Zv&racskk sbornik, no. 4, 1961, 404-416 TEXTs The article describes creep tests to fracture madewith welded joints of inexpensive austenitic steels developed in the CSSR for superheater tubes and forgings used in thermal power plants operating 4ith high steam parameters. The VUW, V~zkumn~ U'stav )~iitnictvi Zveleza. (VURZ, Ferrous Metallurgy Research Institute) and the Vftk-P-icke' 'z"elezirny Klementa Gottwalda (Klement Gottwald Vitkovice Iron Works) developed the 174819 17482, and 17483 inexpensive, high~temperatureq austenitic, Mn-Cr steels alloyed with Ti, V . and Mo. This,paper deals especially j~ith suitcble filler metals developed by the VUZ, V~zkumn~ fistav zvhracsky (Vfi, Welding Research Institute) in Bratislava, and the long-term strength Card 112  Z/046/61/000/004/004/009 Long-term strength properties ... D007/DlO2 properties of welded joints at elevated temperatures. Creep tests to fracture revealed that welded joints of superheater tubes have the same creep strength as the 17482 and 17483 base metals when filler metals MnCrMo(Nb) 17/7 and MnCrV(Nb) 17/10 are used. For welding 17481, 17482, and 17483 austenitic-steel tubes to CSN 15 225 farritic-pearlitic-steel tubes, the VZU ZVIL, Vkzkumnk a zkus~ebny U'stav Z&voduo V.I. Lenina (VZU-ZVIL, Research and Testing Institute of the V.I, Lenin Works) developed a VZU 60 filler metal which contains a maximum of 0.110% C, 0.30% Mn, 0-80% Si, 19% Cr, 1.50/0. Ti, 15.W. Fe, 5.0% W+Mo, O.8W- Al, and balance Ni. It was found that the long-term creep strength of such a weld is determined by the creep strength of the transition zone of the 15 225 ferritic-pearlitic stee; which is approximately 206 lower than the mean creep strength of the base metal in the not-affected zone. Engineer J. Kouckk of the Ferrous Metallurgy Research Institute is the personality mentioned. There are 6 figures, 9 tables and 10 Soviet-bloc references. (Technical Editor. Engineer, Candidate of Sciences V. Gregor of the VUZ Bratislava). I V ; V ASSOCIATIONt VUHZ Praha (VUHZ Prague) Card 2/2  7-/034/62/ooo/olo/ool/oo2 )9 E073/F335 AUTHORS: F. , Engineer Doctor, Zezulov.a', M. -and M. , Engineers Praz It TITLE: Corrosion properties of austenitic stainless nickel- and inolybdenum-alloyed-clirotnium-manganese at eels PERIODICAL: ffutniclc6 listyino. lot. 1962, 705 - 712 TEXT: The results of earlier investigations with austonitic CrMa and CrMnNi steels i-jith high nitrogen contents have proirided infornation on the interrelation between th'o comppaition -of the steel, solubility of nitrogen in the liquid'stoel-land fhe r,-'tte of occurranco of -as bubbles and 6hrinkage 'cavities'in cast ingots. 0 These iiivestirrations enabled evolving a technoldgy of smeltixg and castia, austanitic-Cr-Xn-N steels so as to obtain in- ots free of bubbles and inadmis-,,ible shrinkage cavities., The object of the exporiments described in this paper was to study the imCluence of additions of Ni and Mo onthe corrosion proper- ties of steel of the basic type. lOCrl6Mnl5N, containinZ approximately up to 0.1v~ C. 1500', Mn, 160,; Cr and maximum 0.40r,4' N. Card l/ 3  Z/034/62/000/010/001/oo2 Corrosion properties r.-073/9335 The laborntory experiments were carried out with two series of heats, one produced in a 100-1cZ high-frequency furnace, cast into in.mots and formed by forSiu-, and rollin- into 20-mm diametcr rods; the second series was produced in an 8-1-,g high- frequency furnace cast into 8-Im in-ots and fort,ed into 20-mi-,i dia-meter rod. In both series the rod ;'%-rere austanized at 1 050 to 1 070 0C for I hour, followed by cooling in air. These experiments revealed that the corrosion resistance in the passive state can be improved by alloyin.- with 0-5"a No and still more by 1 0 alloyin_- -.,rith 20,' Ni. Corrosion tests in l0cr, HCl at 20 C revealed that this conclusion also applied to the active state. The laborz-.tory experiments were followed by experiments on industrial heats of the following compositions Dasi,-n CSN designation C Nn Sl Cr Ni Mo N P 3 17470 IN 71170 0.05 14-0 max 16.0 0.30 0-32 max-- %lax. 0.12 17.0 1.00 19.0 0.70 o.42 ox6o 0.035 17471 N 7471 0-05 14.o o.6o 16.o 1.2o - 0.32 max. pax. 0.12 17.0 1.50 19.0 2.00 - o.42 o.-o6o 0.035 Card 2/3  j Z/034/62/000/010/ool/oo2 Corrosion properties .... E073/E335 Tho corro.,.-ion-resistanco in 65": boiling nitric acid of both these L;tccls was found to be con%,xrable with the resistanco-to- corrosion of 170,,', Cr stainlers steel CSN 17041 but the passivation ability of these nei..- steels,- e;::,)rcssed qua:ntitatively by tile critical passivat,ion current d*ensity, was higher and this was very favourable for the resis.tance-to-corrosion in sli-htly o.xidisin-- media. Both these dovdloped- ateels are practically equivalent as regards resistance-to-corr6sidn. However, from the point of view of production teclinolog-y,.particularly as regards re-usin-- scrap, steel 17471 was found to be nior.e favourable. The elon~;ation, contraction and-impact-stren.-th-of these stools mm virtually the saine as those of austenitic CrNi steels but their yield point was about 100c" hl-her. Full cfata are Siven on the mechanical and corrosio*n pro3erties of the tested new stecis. The production of s' f tdel 1, 17.1 is at present being introduced at the-following Czech plants: V'iKG; Ti VASR sheet mills and Wi. There are It figures and 8 tables. ASSOCIATIONS: VU11Z, Prague;, SVUOM G.V. Akimova, Prague. SUBMITTED: February 21, 1962 Card 3/3  POBORIL, F., inz., dro; ZEZULOVA, M., inz.; PRAZAK, M., inz. Corrosion properties of austenitic nickel and molybde alloyed chrome-manganese of stainleso steel. Hut listy 17 no.10:705-712 0 162. 1. Vyzkumny, ustav hutnictvi zelaza, Praha (for Poboril and Zezulava)., 2. Statni vyzkumny ustav ochrany wterialu G.V. Aklmova, Praha (for Prazak).  PCBCHUI Frantiseks, inze., dr, 14ng-laotiAg strength properties at elevated temperature of velded superheater-tube joint& of austenitic high-texaperature stools* Zvar abor 10 no*4:404--/+16 161. 1. lYzkumny ustav hutnietvi seleza., Praha.  PAWFRA,, Karel., inz.; PILOUS, Vaclsv., inz., kandidat technickych ved; POBORIL Frantisek. inz., dr. - XLcrostructure and mechanical properties of weld joints of austenitic and ferrite pearlitic creep resisting steel for boilers with high parameters. Hut listy 16 no-3:186-197 Rr 163. lo Vitkovinke zelezarny Klemonta Gottwalda, Ostrava (for Pawera). . 2. Zavody V.I.Ienina, Vyzkumny a zkusebni ustav, Plzen (for Pilous). 3. Vyzkumny ustav hutnictvi zeleza, Praha (for Poboril).  Tr.,,, 7 5-M 2 '12, Ili, 'Ind 'pality w q~A in t`~7t ~lc t)rocv-qa r 7.~Ilj _,enb,vu rtferwic -d -t, to results obtainod in rec-ant Years in tin 34olowv Sic-Oworks in Tfinec, (!2who. alVuvakid-p-f-=-  ntrd and the taof- a te dL,--l A - cwnbined id, detiL (F~= EmgUsh sum-an'-)- IN MEAN=  XCC NRs P6010380 SOURCE, U0',jj,:: ('-'/0Q34/65/OD0/O05A337/Q3" AUTHOR: Poboril, Frantisek (Engineer; Doctor); Sicha. Frantisek 54- ORG: Research Institute for Iron Metallurg7, Prague (Vyzkwm-q ustav hutnictvi zeleza),; --Klement Gottwald Vitkovice Iron Works, Ostrava_ (Vitkovicke zelezarny KlainentaGottwalda) TITIE: New trends in production technology of seamless austenitic steel tubes -SOURCE: Hutnicke listy, no- 5, 1965, 337-344 TOPIC TAGS: steel. austenitic steel, metal tube, metal machining, metal pressing, ferrite ABSTRACT: For high pressure modern stemplants economical grades of steel containinja .Fe Hn Cr base were developed. A process for production of start- ing billets for such tubes is described. Ingots weighing 3850 kg are teemed; they'are passed throu blooming apd billet mill without being reheated. 130 MM cylindrical billets are reduced by machining to 120 mm.and cut into 390 vim long slugs- These are heated to 1150-12000C and pressed in two hydraulic .~presses into hollow pressings to make seamless tubes. This method in comparison with the old one omits forging and boring of billets; .*this substantially increases the labor productivity. Two groups of different steel heats were analyzed. Austenitic steel billets should have a good hotworkability and a ferrite delta cont nt 6': 7 fi ?JPRS7 'less than 3%- (brig. art. ha res, 3.1 tables, and 2 forr~ulas- U 'F: OTH REF: 001 SUB COMe. 13 S BM DATE: none Y ORIG M 007 0 ~A '1 11  Distr: 4E2c .--O-the metallulp of sustenitic n1trojen-alloyed chr.omium- manganese and chroulum-maganese-nUel qteelsi- Fran- tiAek Mobofil and -(Stfitni ~Pmg-, - HO.-Vit", icsiwyl ?1 069-70 -(1959)-. lab.. Q~-frequency* welts of. austenifie'N- alloyed Cr7lfn steels at was expenmentally detd, that the L N content of corresponding solyi. in steel of given - chew. comon. is the limiting content in equil. conditions to obtain sqund Ingots or castings without blowboles and inaccessible segregations. ;The.melt resulti confirmed thi% the great excess of added X In comparison with the ciouttAi-of i6l. W Causes, In e4uU. conditions; fmjujtW of blowholes In Ingots and castingi 6u the one hand iMd larger and irreolar. losses of added N osi the other hand.' The'solyz a N in =cited Cr d J s temp." '25 rderencix-~ alloys p L, khvM1OjM G  - ~~ ji m i ,,, -, - -3 4~` X , J ,, p ~- ; *~, ..L  FOBORITL, F. Knotek, M; Zezulova, M. Contribution to the constitution of austenitic Iln-Ir and Cr-1%Ii steels for service at high temperatures. P-725. HUTN.',.Cn" LISTY, Brno, Vol. 10, no. 12, Dec. 1955. SO: Monthly List of East European Accessions, (EEAL), LC, Vol. 5, No. 6 June 1956, Uncl,  Z/034/62/000/004/003/005 E073/9335 AUTHOR: Poboi-il, F. TITLE: Mastering the-manufacture austenitic heat-resistant MnCrMoV (17,483) PERIODICAL: Hutnick6 listy, no* 4; and fabrication of economy steels MnCrV (17 1182) and 1962, 295 TE-XT: Concluding report dealing with mastering the manu- facture of economy austenitic heat-resistant steels_ MnCrMoV 17/7 (17:483) in electric-arc fiirnaces at VZKG and mastering the manufacture of seamless tubes from these steels at V2KG and Wi, Chomutov. A new technology was developed of' manufacturing semis for the production of seamless tubes. According to this technology, the heats are utilized for teeming roll-mill ingots, type VI A,, weighing about 3 700 kg, which are rolled into blooms-of 130 mm diameter. These are rough-machined and split into blocks which are used for making hollow pressEngs with-a bottom. Seamless tubes are~rolled from these by current methods. On the basis of experience Card 1/2  Z/034/62/ooo/oo4/oO3/005 Mastering'the manufacture .... E073/E335 gained during development of this inethod of manufacture, detailed technological specifications were worked out for the manufacture of both steels in electric-are furnaces, for the rolling of ingots into blooms, for,the rough-machining and cutting of blooms, pressing the hollow presslings and tho manufacture of seamless tubes. The further part of the concluding report contains results of metallographic and mechanical tests, including creep-fracture testsby means of which the mechanical values for both these steels, given in the works standards,of VZKG (material-property sheets), were verified. An analysis is given in the concluding part of the report of the economic effect of introducing the manufacture of-Aheige two steels, 17 482 and 17!483, into the metallurgical-Andustry. Repovt of Vy'zkmmy ustav hutnictv! -zeleza (Iron and Steel Research Inst:Ltut e) . r-Abstracteris not.e:, this is a-complete translatilon.1 Card 2/2  67012 /'P. / IS-0 CZECH/34-59-10-7/25 AUTHOR : Frantisek Poboril, Engineer, Doctor TITLE: ~Deve1o_pm_en_t;_f_L~ten1tic High-temperature and Stxinless CrMn Economy Steelsl9for the Manufacture of Seamless Tubes PERIODICAL; Hutnicke' Listy~ 1959, Nr 10, pp 861-.863 ABSTRACT: The author deseribes the results obtained in Czechoslovakia with CrMn economy steels developed for manufacturing siperheater tubes which have to withstand the effect of superheated steam and of combustion gases. The development of austenitic ec~onomy steels began in Czechoslovakia in the Vitkovice Steel Works -in 194-9. MnCr steels were alloyed with up to 0.25% N and stabilization was effected by means of Nb and Ta. The creep strength at 650-700 00 practically equalled that of austenitic Cr-Ni (Ta, Nb) 16/13 steel, Due to the great shortage of Ta and Nb in Czechoslovakia, further research work was carried..out fordeveloping titanium stabilized Mn-Cr steels, Mn--Cr (Ti) 17/7 (steel 174-81 Card of the Czechoslovakian standard specification). The 115 heat conductivity of this steel is about 22 kcal/m OG hour in the temperature range 300-550 OC, which is considerable compared to the published values Ifor..  67012 CZECH/34-59-10-7/25 Development of Austenitic High-temperature and Stainless Cr-Mn Economy Steels for the Manufacture of Seamless Tubes austenitic steels. According to the test results of B. Prwenosil (Ref 10) this steel resists oxidation in superheated steam of 180 atm up to the temperatures 6lo-630 OC, and up to 660 OC it resists oxidation in a medium consisting of flue gases with a low content of Sulphur and a relatively high content of water vapour. According to the results of Prenosil and the author of this paper, in the air the steel resists oxidation up to 740-800 OC. In Fig 2 the creep strength of this steel is plotted for durations of 10 000, 25 000 and 100 000 hours. For temperatures above 620 OC and durations exceeding 100 000 hours the values are extrapolated by means of the Larson-Miller parameter. This Mn-Cr (Ti) 17/7 steel is suitable for tubes in forgings intended to Card operate at a maximum temperature of 620 OC, i.e. for 2/5 superheated tubes (560 OC) up to 180 atm. For higher steam parameters a.further austenitic high-temperature Mn-Cr-V'17/10 economy steel was aeveloped; the Pilot plant development of this steel was carried out in the Witkovice Steel Works in cooperation with the  67012 CZECH/34-59-10-7/25 Development of Austenitic High-temperature and Stainless Gr-Mn Economy Steels for the Manufacture of Seamless Tubes Ferrous Metallurgy Research Institute. This steel contains about 0.10% C, 1.8% Mn, 10% Gr, o.6o% v. It has stable austenit-ic structure in the temperature range of technological processing as well as in the range of operating temperatures under consideration. According to the test results of B. Prenosil, the Mn-Cr-V 17/10 steel withstands oxidation under the effect of steam superheated to 700 OC (180 atm); inside combustion products with a high content of water vapour it withstands oxidation up to 7500C' and in air it restricts oxidation even above 750 OC. The bigb temperature stability of the Yin-Cr-V steel was determined by long-run creep tests until failure at 650, 700 and 750 OG for a laboratory 100 kg melt produced in a h.f. furnace, two pilot plant electric~ are melts weighing 0.5 tons and one electric aro melt weighing )+ ton&. The longest test so far (5 kg/mm2, 700 OC) was carried out for a duration of two years and Card one month; the obtained results are graphed in Fig 33 3/5 p 862. On the basis of these results creep strength data as a function of temperature for 10 000~ 2 and . .5000 100 000 hours are graphed d7a Fig 1+,, This economy  67012 CZECH/31+-59-10-7/25 Development of Austenitic High-temperature and Stainless C'r-Mn Economy Steels for the Manufacture of Seamless Tubes austenitic steel has a very high ductility under creep conditions, it has very high values of extension and contraction during fracture and these values drop little with increasing times to failure. It was established that this steel is suitable for forgings and tubes intended to operate at material temperatures up to 675 OC, i.e. for superheater tubes of high parameter steam of 600-625 OC. In the graph of Fig 5 the properties of the here-described economy steels with austenitic Cr-Ni steels are compared. As regards creep strength the Czech Mn-Cr-V 17/10 steel is equal to the American steel AISI 347 or 348. In the Research Institute for Shaping Metals in Zwickan (East Germany) the possibility has been confirmed of producing seamless tubes from the Mn-Cr.-V 17/10 steel by extrusion in the hot state. Welding technology for superheater tubes Card made of this steel is being developed at the Welding 1+15 Research Institute in Bratislava, Jointly yq'i the Witkovice Steel Works, VTZ Chomutoy and T9 VASR the research institute of the author Is developing stainless  67012 CZECH/34-59-10-7/25 Development of Austenitic High-temperature and Stainless Cr-Mn Economy Steels for the Manufacture of Seamless Tubes and heat-resistant FeCrEnN steels which vill enable saving of nickel. Card There arG 5 figures and 13 references, of which 8 are 5/5 German and 5 Czech. ASSOCIATION: Vy"zkumny" U"stav hutnictvf Z"eleza, Praha (Ferrous Metallurgv Researeh Institute SU34ITTED: June 1, 1959  67102 CZECH/34-59-12-25/44 AUTHOR: Pobor _Lrantiavek? Engineer Doctor TITLE: Development of Low Cost Austenitic Creep Resisting Steels in Czechoslovakia PERIODICAL: Hutnick/e listy, 1959, Nr 12, pp 1121-1123 ABSTRACT: Paper presented at the "Symposium on Problems of of Creep-Resisting Materials", 316ske" Lazne, September 11-13, Section III. 1959. Since 1949 the research and development of austenitic creep resisting steel in Czechoslovakia covered not only Cr-N! steels but also N! free Cr-Mn steels. In the case of the latter type of steel the aim was to balance the content of chromium and other ferrite forming elements with,the manganese content so as to obtain a stable austenitic structure, both at operating and at annealing and hot working temperatures and to eliminate the 0 tendency to formation of a-phasef6-ferrite. Up to now the following steels of this type have been developed: manganese-chromium-nitrogen (-tantalumrniobium) 17/10 (N 7430); manganese-chromium (-titanium) 17/7 (CSN 17481); manganese-chromium-vanadium 17/10; manganese-chromium- Card 1/3 molybdenum-vanadium 17/7, The compositions of these steel's  67102 CZECH/34-59-12-25/44 Development of Low Cost Austenitic Creep Resisting Steele in Czechoslovakia are entered in Table 1, p 1121. Oxidation and corrosion tests in atmospheres of air, combustion gazes and superheated steam have shown that the growth of oxide layers on austenitic Fe-Cr-Mn-base steels obeys essentially the parabolic law. However, the temperature dependence of the oxidation rate differs from that of chromium and Cr-Ni steels and is characterized by a sharp rise which sets in from a certain "critical" temperature onwards, which depends on the compositionoof the steel and the oxidation medium. The creep resistance has been determined on laboratory, pilot plant and full scale production melts for test durations up to 20 000 hours, which have been extrapolated to 100 000 hours by means of the Larson-Muller parameter using constant C values,which were calculated for each type of steel. The production technology has been developed and tested on a full production scale for seamless tubes. Argon arc welding of superheater tubes using Mn-Cr-Mo (nioblum) 17/7 filler material has been developed and is being used under shop Card 2/3 and erection conditions for the Mn-Cr (Ti) 17/7 steel. K  67102 CZECH/34-59-12-25/44 Development of Low Cost Austenitic Creep Resisting Steels in Czechoslovakia Are welding electrodes and welding technology of low alloy ferritic steels to austenitic steels are at present in the stage of development. Furthermore, Fe-Cv-Mn-N-base stainless and creep resisting austenitic steels for casting and forgIng and alloyed with further- additional elements ave also in the process of development in Czechoslovakia. There are 5 figures, 3 tables and 25 references, 10 of which are Czech, 8 German, 6 English and 1 Soviet. ASSOCIATION: VY"'zkumny' U"stav hutnictvf Z-eleza, Praha (Ferrous Metallurgy Research Institute, Prague) Card 3/3  I On Me Eftetwe 01 mat "d m Thffianitlmi ,723-757). [in, ech Tho pcsjt.!Dpa of too-hnicalI % a F&-Cr-Ni am st-4 Is"bilized With Ts M. Ti, and V) in the ternary phasse i ram .". detk~=Z~. ana M3 extent of the garnma dome,in nacailainad The "i.krb~im of the phm boundurina were chocked by long tune itah of The st"JI'Pt KV C Which, foT tb(*e inclu A on C, j8r,~. L =-brittlement. Equwl 0 M ' or Ni --veh. rdiy~"z Lmo ty as G., 04,0nomxT201 M.~g sublp we.-s developed.  WBORIL,-Frantisek DtandMUM of the Suitability of L Steele. for (In Coach). -!IN 0"j= *nd,4ftW&iwX Sicha, HAnIcko MAYS ve 51" 4Z-.1950P P- 5-98 JOC 1950, P,, 57-61v,)kr, 1950, pe 101-i* On t4w bable of experinental evideum showing,that, In fusion welding, a sudden cooling down.of cartain lm,-oarbon stoela from twperstures in the vicenity of the Act point results in a brittle Hg2 in the tranisition rangej a fusionr-weldebility test for sUals v" suggestad, It consists in tha quenahin of roud?:~achloLd iMM2t-_tjst spenimn from a temperature just below the jq,'L PoInD" ax-tiftew a at IWO. for two houwa,, and dotelvaWtion of Impaot strength at the normal temperature. Includes tables and n1crographo, (IMadiate.6mros clipping)  T i3758* Ileat Treatment of Gears by the AC ISurfaec d P i Ifl V 3 3 No ar en ng rocess. Mi. pohorll. Huln(ck ' V 8 9 S 5 . . ey, v. , no. upt. 19 3. p. 450454. , Mar . 1954 IMethod coraists of lsothermic hardening of gears made froni, 13- Heat met& illk-cutectic l(r,;-nllo) ractic -ttcl stevis after heating in a salt Flath Tables 4 ref grnphs TreStment . . . , 1:1-i*.% o tie  PCIPIOMT11) F. ""resent Trends in the Development, Production, and Use of Alloy Construction Steels." P. 158 (Hutnik, Vol. 3, no. 7/9, Aug 1953, Praha) Q SO: Monthly List of East European Accessions, Vol. 3, no. 2, Libra--y of Gongress, Feb. 1954, Uncl.  POBORIL) F. POBORILt E., SICHA) F. - "Examining the Natural Aging Process and Application of the Weldability of Steel'o" P. 158. IlLutnicke Usty, Vol.6, No.4, Apr. 1951, Brno.) SO: Monthly List of East European Accessions, Vol.2, Vo.9, Library of Congress, September 1953, Vncl-  -ate-, n.~ A-~,el Induz-4 ry ir. Activitie-S -,,f thc 158 4 of IEC: EaE:t European Acccso~c~ns Li. t, l7ol. ':o. 9,  FOBORTL, P. "Heat treatment of gears by the surfaceh7~-.-Idning process AMP );-450. (flutriicke 1Jst-;. Vol. 8, no. 9, Sept. 1953. Brno,, SO: Monthly List. of 3ast European Accessions, Vol. 3, No. 2, Librar~v of Congress, Feb. 1954, Uncl.  irl oval of the Iron and Steel Iriti tutP. vol. 176 Apr. 1954 Properties and Tests Tnob In Do"Immuk Prodadim m4 Un el yl:gdsfl kywrAJ.P-4-~ 11!R! k hsr-[~ ti-, h-dft-btfity, Memptht'rittknalm, :d"hj."=mT~ microstructure to da,,d reference is made to recent work ==:t7b"q y~Moy ateela by the open-hearth  P013ORIL, F. "Activi-ties of the Research Institute of the Steel Industr7 in the Five-Year Plan-" p. 138, Brno, Vol. 9. no. 3, Mar. 1954. SO: East 1hropean Accessions List, Vol. 3, No- 9, September 1934, Lib. of Congress  -POBORIT,,-,Fi B. T. R. v .3 No. 3 -14ar. 1954 -* ileat Metals ; ' Treatme -1 .1758 * 1111rat Treatment a( Gearm by the AC I Surface Mar'lening Procetip. (Czvchoslovaklan.)O-'. l'oboril. 11ijinickd Livy, v. 8, no. 1), Sept. 1953, p. 450-454, 'Method consists of Isntliessuic hardening of gears made from ractically eutectic low-niloyt-d steds after healing in a salt Flails. Tables, graphs. 4 rrf. --  study of lintura! areing and aPPUMU011 Of tests for determining the Willubilit skWL F. "61wdiland 1? SR-" '1fu1miUJJFfY, JU51 Y of rift- - i i i . 37777 J, d natural and artificial ugeing were cornpartfd, Alter ageing. natural ageing for 2. - 10,000 lir., impact tvi~ts and nicitsuteme"U.- of with. a pronounced Micro. and luicru-juodms4 were inado, 1) afte to brittleness developed full brittleness in 24 fir. ~ r tendenc, critical heat-treatment (quenching in,w-ater from 710') and ternained for 10,000 fir. without ixtiv sign of improvement. With killed stee full brittleness occurred in 5110 hr. nittr critical heat-trvatment a1A. -thure Was un 1111provettitnt aItcr 10,000 lir. To determine whether Increase in finrxwt. rengLh values betwet-ri 5000 and IUMOU hr. judi- cates an finprovern nt in forging properties, ;Rpecinicn.% ivere given' and 120,000. r. ageing tests. Thtse s)iowc;l the exisUnce of pptn.-hard 'ening for oxy-C steels quqnched in water from temp. directly below the Act point Simultaneous tests of natural ageing foPowing cold deformation showed that there is a difference betAveen. this type of ageing, wifth results in only a slight increase of hardrtc~,s, and ageing after queuching in cold water from a temp. directly below the Act Point Statistical data from weldability testsobtalned during current qaliiy control on 125 low-C steel melts Rhowed that ageing after critiW heat-treatment and ageing after cold deformation give quite different results for a large no. of the steels. Theassumption that a steel haS an equal tendency to embrittlement as a result of thermal cycles during welding and as a result of cold deformation is not always correct. In most cases the steels unsuitable for welding were not killed. R. B . CLARKS.  1--ruU010C Yet-Ohl and _NCAA (CXUUVZ, S.;=13 'min *t-rMy-T, A7-01, 101-4(RuzIbb munqmm 105) (Mr)).-Aftcy a brief m-kw On testing the WeWabffitY of steel, P. and S. thicribe a ncw test, tnainlY sultAble fur use with Ciad lvvr~lluy bttels clusilfirA as not au"ble for lwdruiax. Fartienkis attention is puld to the pheuom- east occurring in the uunsidan section of the welded specimen. For the tests canied out Information is vivu on Lee compu., dimensions, hardness. and beat treatment of the jpm-imvis, tLnd on tht )Dnfions on the sbtet from wlaivb thb jpecimens wete mktn. The x-C-ttilts, obtained show that, It the cam of lo-v carbon Steth wit)z R tendency -nithoo, ",orked out from cxl)ts, on the "t7ritlail" ternp. directly LvIDw the Ac, Point uIld the infuumv of azins, consists of quenching t1it tough, InacbIned impact tcst 3, -xClinen In water ut 2 te-rup. 411'ectlY bClOw the Art Point, artifitial ujing of th2 fi -:Ihed 'Twhlned 3pwimen ut 10D* for 2 hr%., and detu. of IT'! I.-' Pact resistunm at rooin ternp. The cteel 6 --la--iffied as weldAbit 11 the butkict of aii a sptchem is equal % or than 3 ky./sq, cin. The test results are com. Piled 19 Lubin and plotted on graphs. The results of Mpuerullve hmd triatmzut 01 2rtiACMy SIM sp-imcm. Is sbMwn on m1cmphotograpbs. Euxecte Cdes  e~4 n1v constitution o! 0 imi -nickel slecls for IL _7 Cr--"! w- ,It 9)0* Tht'. J~LYiiiaP Of tl'C Stt--S in tile tCSDCTI'Vt teTtlar) cli3glam., wzcs -Je*-,i- by dem-c-A uqu~l"*VI16 'ful the Caden. ror, equivs. of thv, principal alloying eleinents GI both (IP7  POBORILI 111*eldabili~y T~Q Poboril nnd P. Sichq~ (*,- ~-Ocke Listy, 1950 Vol 5 ' Jan., pp, 5-9: Febe, pp4 T7--6!t r~#j pp. 101-1055. (in C*zoch). The authors review brleffly the cu-lTent methods of tooting the veldability of steal and d3s- cribe, in detail a nev method based on their own exWrimants. T heis method is minly suitable for ce--rbon and lmw,--La~lo steels classified as not suitable for hardening, and parti- cular attention is paid to the phenomej~a -occurring in the transition zone of the welded specimen. The results obtained show that.r.apid cooling fmm a teriFerstux*9 near Aelembrittles the transition zone near the weld in the case of-las.-carbon steels uith,a tendency to brittleness. Thq authors have devaiap'Dd a now woldability test on the basis of further experimmi4ts an the ini uence of-the.driticai- t6mperature just below4,ci and the influence ot sping. it consists of ~chined j!R-LM-Cf-T-05t G~MdiMeU in '6tntCr ichina the rouSkma from &.-t-qmperaturo just bolow Acj: artififtal'agein of the finish-imchined specimen at ICOOC. for 2 h--.'-z'nd determination of tho impact resistaneo at room tempel-atUrea. Tho steel is claosiffe-d-a-s-w-eird-a-b =of the impact resistance of all the three kpoo-Iraons > 3 kg.m./32.om. The ras,Llts of ragenerativo heat-treatment of artificial-ly aged cimans are shown by mic- rographs* (Immediato source clippingT  Y AA 11 L!. 10 U Li P11OPERTIES INDEX 8847- A Stua of N Is forWeldu III, 81"ral A 61h9 All aTntj f i FnktIsek Sfula 17, Of 81-116 ak 6" F 0 1;. rant utnickd Lijill Tp "I BY7 ng nme tests of MS. 1~. oatura' agig of in iof p water fro- Just blel-w the Ac 4rec -t _,atf- h~ardenln' spoint, the exis Maue 0 ,n naft'a dm.nstrat4oOther t 0 g resulted in only jags'n'W91101 Gwlog cold d f ests wer e 0-Mation. This proc ation of rewlts of ncTease in hardntss. St,3tistic., evams 1OW-carbo, coinparativd tests ob weldebih lu- after steels showed that ing after th I ty of 125 cold defo,,,ition a b 9"' funlamentally duiffTua,' fteuto)-t aud of Steels. Tabl. and rph,. nt results for 4 4W W U ]a 3V9 41 Q 4) 44  of 0013 M 0i I ke VIII't4w A..Mb- AIM 14dL D. .IN 10JOAlai am a.. lit Ir SO 5 a a 3 0 v 0*000090000000000 -fe .00 gas* =00 do* coo see see %coo zoo 411010   POBORIL, F. P. HERASYMNKO, Chim. et Ind., 1933, 29, spec. No., 649-645   PWS1V, B.N., doktor istoricheakikh nauk, akademik; TARASINKO, B.P.; FZTROV, L.K.; KONOPZL#M, I.A.; POBOLI. L.D. Book about ancient Russian glass. (OGlassmaking in ancient Russia" by M.A. Bezborodov. Revieved by V.N. Pertsev and others). Stek. i ker. 14 no.9:31-32 S '57. (MIRA 10:10) 1.AN BSSR (for Pertsev). (Glass manufacture-History) (Bezborodov, M.A.)  0 0 0 0 a III W a it AD if 12 it S, b 14 it x 11 f it 'U or A I ._ir -40 so A A tbartmody-amic study of the form which silicon tittles -00 is liquid Im. _COm, (xzo, 14. 411 :;~ Fur.- liAl rkum~)(10391.-Froni a thrritimlynamic analvm' '.f I lit- liquid still milid lwmnilary rurve% of a plia.- dingram 4.1 binary ajl$)YN (if Fe Sind Si in whirh Ff. i% Olt. pr'A"mi. nating cuntlionent. it hirrome- evident that it the alh.v q-11n. lani. novir than .1k. the Si in the liquid j,hAr I, di- - .,I% rd emupletriv in the limn of FeSi, while the Si in 0%, -lid pha-w ii dis~olvrtl in all atomic Form. lit ailfn% less than 2.Yj'," Si, ibe FrSi allov remaini Intr1h. Z it ru'l completely, fliq aciaied. Frank Mat-h 00 00 00 =00 84 TALLUPGKAL Uffe.TWE CLASUFOCALUOU rz it I a 11--y- -1 0 -O .1 Ir Ot 93 Q Ito U AV 10 AS W x MW n I lit 41 of It U It A( r it &.10 so 0 111 * e 0 0 so o  0 0 0 0 0 -m --- - - - - -- - - - 0 0 0 0 0 0 0 0 0 0 0 0 a 0A 1 40 OTO 0 0 a 0 * 0 0 0 0-1w- I - is I) at 14 is 14 t? it a 1 11 11 13 )A b h .7 a n ID is LY U m D a -6 A, j A L a N, II AA 06 CC CV CC 004 Tho co"titutwo of the kmmbm adicam eywom U. Sectioatkrougistbotri- 0 dumossimmal diagram of 8% milkam. A. KAU AMU F. PUSI(till., (Wkdio4 (780iA.1111V hm. 6~ms. J. 61 72(11131); d. C. A. 14. 5705. - 4 7 m1h)ys wrrc : .vcwdptr& Them alhM were pr"W. by 1!3!lting in n et, Caner furnacr. Th, lwmntw cbem. empo. of the atloo Wed Is; A11.1, Nw 4z Me 0 1. 8 A. 4. d.v- 34 14 U. 43 7.$r, U. (m 1 0.011 145 00 z IN 11*21 0.31 7.K7 0. 01"', (1). (j) it "I #Wk) 0-34 0.40 7 6.1 OAN12 ,. C14-N A 12 (1 MCI( 41 Mn Wo I So j 11 1w) 41.4s .00 (I ml 0 .414 1114 RV ~.l (1.1.41 00 .3 .K 14 ~o 0 311 1 K 4) 40 7 45 1 1 r,_ ft% * 6 .3 40 2.7 0. b5 7.84 0.00 0." m% 0 0 00. Nampics for therwAl anslymb; and moicnewcopk examn. after hest treatment wen (Aken 'a 0 fromeachalloy. The coustitatkocial diagrarn td dw ternary Fr--C, Si systein coutg. 8~~ **a $~ is given. 71m rrgim of tk homogenecous -F-pbamc does not exist in tb~ ally. 00 4r JUptuliUcUwWaffmtimaftbealioysinthmarcLhaaO.48%Cm&atthctwginning ~00 I SOX od whing. The travoluffumation Acs in the aWys with 81% Si lics in the region a + C SO 00 iAt G. T. MoToK 0 0 00 40,0, zi 7~ 00 Q "00 00 1 L A ltlAkLtJ6K&L LITIR4166t EL&WOKA140w Z~ 00 SOS "'S Yee --tw FS u u p t, m a K it -W a 'T a it 3 1 4; a to 0 0 0 0 0 0 0 o 0 0 0 o 0 0 a 0,; 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 a 0 w 0 * 0 0 & 0 0 0 0 0 0  I) ;AD If u " u a k I? ft b 6, 41 u I Is P A A --X-J L 1 6 ?1 F 0 1 1 1 W V 31-4, 1- 1 As 0 M OR n4l 1 4 4 1 .0 ..0 J~ Ii 0 ., Molecular compmada Is 14wd steel isad their influface 00 on the deoxWedoms equilibria. 1'. lict~~ojpnivnL,, junIA, -00 496 CWketion Cmkojhm. CArm. (emmumnatill"i 5. -00 ed AA06:0).-A thernicKlynamic study of the Fe-NA (1 -00 %yatern. Invemigatiom ul the liquidim.,olidu% rum, M 00 the Fe-N qrtem near the ni. 1). of Fe show. that St -00 Pulonlyal. 00 n! 1; .4 Call tAkc pan in Use deoxidatim: 2FrO + Si = 2Fr + %02. Further. if Mn is pre-witt it will volubine with -00 Wine of the Si to forin %InSi (whcre 9 is probably :31 or 3 1. 'Me authnn ccorwhide, thrWi4c. that the chindditing -00 00 ffect of 81 no lIquW steel conts. Nfn is comid.-imbly lower tilan in Sleel Witholit j,111. ILInq i~ ConfirlIn_41 fly ell,t]. data taken frmn varknis mouilva. lfildk%vrolphy. 0 00 John E. Milloryw 0 a* 0 too too All.R Oil oil A I, 0of a.. Is. falls via" it m "a A I is 01 0 0 0,4 0 0 0 0 0 0 0 a 4 0 0 0 a 4 0 0 0 0 0 0  I u ct" 10 $1 u 0 34 11 Is 1) Is It a 41 Q 41 a IT 00 AT u our Kp 0PC A S uv , J." i,T14 It" J.D 4.0 Sim gQN4S -0 7 004. 0 OF 0 0.~ a 00 0 0:2 Ow- 00 66=; MUM - Aq wlitjlji~k, " 09 -1 'ILL IJIV III.,qltm I4jj% tl~ 1110til UW3 ~! ll;-j .1flutu I~Ils InI1611 w 1~ it) Imlij 00 va"081" -141 A 0 PIWP)jd,i M 11 ) .'; ~.Ij J., _- J : Ill'i is J4 'J"d lots, 0 N, iv 11 IPA P tOMMI M tq Afutwou" aA III qt w-q* j4 . I ja -if 'lu 3 JILM A i tuals ql t Kg_~4 jqj 00 * j p 00 N -4L4 Ap a Almls v - -I ,- jawrt.) M UM PART pow foals PM&II Toy opwriodum 99 Owl- To 7 -I-T-.i,A 4 oil) a) '" so b Witt'iff I Ipt. 0 030 4"" .1% Vol Ill, 11 011 : $1 Of U it uIt a a it it 11 n 11 0 0 * 0 0 , !!j11* * 0 *je * 0 * 0 a L , .  00000000000000 ; w ON0690011 1':q! 00000*0909ON960999 t 0;00 00000000 000004 n cl 10 1 U 16 If P 9 %T Ca av U T% J. 1. a pu a s I ug U, 310,11'awl 1,304111,L]. 00 00 0*5 so =0 o 00 0 We 001 00- 00 'P41y-%As "A 211vid =Wqd-sm I NuILU)"Im, jt,qlnw jql u3am,jR, juj,u.,jjjft., 24110 UO!1W1U.XMD -P (ISM 'U T 1134faS Aq P-Pap 90 -141 ji'~. pmr.fmmlaj~x. Wkr.'t 'st 1.1199 Ail 'Plap Allumatutailtra mnqd -ujmx) 09. All fit, 'Atill 1111b.) mil 3111 11jqjk-.(ctdlxtc 00- -11111011111~4"J al m=9uj Ul)t-r. is SO*) 00 000 4 fin 40 71 Not I I U A4 if it it at 4 1 1 0 1 0 f. 11 1, m 0 it a a it x 6t w w V it if a tit* " 11 11 04 it to Ole 0 0 0 0-* 9 ~ 0 0 0 0 0  swamomwo IM.C st'd dot ago*- YW i~- SAW soc all" of tu *@-be, .== t.1-diAilg -'W '1,. a. CL--%K- .last  A a ill A.tl jWV j4Djj,j .4 I'l It, Awl." I ~W Wd6*ift'h*. F', J."Jit.fil At Jim mllttm*u rr,olew 144111? tromillite-dis of thp wr4dool-thlY 4 I'lel' -11-1 d ion their uovit IkW4HtO in tiorlsoil a I-- InI411A.11 haw Militia. This orwooloomol is ftwn~` .ttawr, for roubon and how- awy stoob Awmifirod as Plot suitable, for hardrning, and joeorl a curring in fit- I&r atte,polkin is mW to the pili'll(WW" Or of trw vmkk4 qwi__ The, op"uhs obtained Imil-kilim anew, eltittreattift r.~ Ar of o1wer that fti" 44onfing ftt,vn a toloilimo tomoto stroar llw "ehl lot dw case, .-ml-fill1l" Im Ire ooj.I.,j'vv too locitilm- 11R.R01 I'm veldw-11 lit" ikoff. a I hoklov th-vA.11-11 a flew w.-Mothilify test two thro hass. III fullfier = I".-lots I-#% lite inf1cwt,,I,, nf the rTillval jutol, I- -- Ae, -,A I he 106"'MV 'If 41414119, It 'If qIPPOW11- .1.0 0- 14"losol Imo. orforeinwel in water from) I-h- A.~,. morlifl,4^1 ligoinic if lf~ f1m.h. 6swwltiio4~l al-iw1wil of IOW V. ft-r 2 for. smul or tto ittlimet 44 "Knix temlloronstum. The, t-l - elloomitiml as wriclable if the intiliart. nomixtivilave (If all thr tt~ OPTISOVOIN > 3 k$F.IFI,14q- Cnl- lrh8 tWUhs af MPKIVIMOVO sof mortillejoilly itmi aptvirim-not mvo shown by rr too. itit -or -T u SS V '2A to it n of a 't it to I ilk Joe e 0 00 see 0 00 0 00 0 0 0 so 00 0 0 so 0 e 0 Wree 0 0 ~ 11111- * 00 A  0 0 0 0 0 -0 a A v of it it I) M 11 It It U it 0 .1 D a )d D 14 N A M k i V U 0 1 1- 4 - A -_A -A ill C u r B 4 , Tbv isiffsalwo of titainium upon Mary cryfullizilt,043, particusailly is lapel with w the I;r. Comma liona4mms dsw-l I in 15. fi"`l'lllliIl% KIA-11 lilt' .1-1, -00 &I Wirl) A- it' 10110v-~,lf ItW IVIK lj~,j Poll 11111~11J% .6 ItAIIIII"111,1111.11 in Ifi, Sin" -0 br.1 dI #"if all., I it., ul" A MW jollitall 9614111 11 A U0 0 & S 00 7 ils t 00 all; An 1 9 (W a a I n 1 '19 " a a v t it til 0 94 4 0 a 00 0 000 000 0 0 0 0 v IF 0 0 0 0 09 0 00 009 0 0 9 0 0 &  004 00 God 60 *A ON"= of Tonsw armumm" d WAML P. Po"i,mul V. Kv;Arv. (litittili-10 1.61% 11140. vol. 1. pp. 97-103 tNo. fl. 130-131): -0e '00 -00 12 too 400 fto 1,00 Boo too too A--"T&L-.UQGICAL LIMATIAl CLAWFKATON boo IL Saco Iwo 9 -A Oft filillaw ii, too ip u 0 AV go 5 a a 3 a 9 a u n is aa AA I S it it It J o . o o 0 0 00 *0 00 00 100 00 00 *0 016 0 .r 0 000000 1 11 *a ! 4"P to : o o 00 OTMOO a 0  004 Ad 7- #0 a 11 100:4 O EE M"MAA*M UNUTM CLAWMA"IN Mo 41MOU" I - . - L, MR-N 04 1 "Dow .10 4"T 11" do C &-sod h" bm Maine% lied Ad vv-w~o 0 0 0 0 a 0I- it a Ar a x a 61 a aa .60 -00 -of see Mae coo do* 4100 400 We ~ 1 Is 6  =Floe* see* es eees**-q-eo--o or A 0 C 0 IF G W A L a K 0 PQ R S T W re--OTII It? AMD MD LEIIII AU1.09 NOIN L4.1 got, see on son 00, ISO- una NUNN L - - - - - - - MATIMALS Owl avaivann 1viesm'sivLaw T19 1 v V -d V ap p aq$ uO ; IGROM p p Of v fe~w Poo 00 Soo  000 Orv a ~09 0042 as 000 -00 ? V so Ps"IS141 AMD PROVISYMPS Amex I F. (Cb~M. - do Wuh 00"taimm bmw 00 ,. is dke a" is canq"Iy ' dimiodMad. F. a.. t At &V 10 a ir ir i i Ait J 0 i i, it i ri 0 0 0 6 0 'a 0 f 0 o : 0 *19 0 0 see 000 As -&,a a sloe coo 'Be e 40 t we o ax LWV isi A& land* awlwdisa a 3 1 0 0 0 'a 0 0 0 e 0 e 0 41 0 0 40 0 AL-&AL9 * 0 0 & 0 0 0 * 0 & 0 * 0  111 0 0 0 0 0 0 0 0 0 0:0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 a a 0 0 0 0 0 111 0 0 * 0 0 4 ~ -a -00 9 1111, a 0 V 0 0 0 0 0 o 0 0 -o-*-W-- W It If Is 1. 1% 1. If IS 11 aIt J: D A D A 27 22 A 1. It V U M b k t, M P ': 0 Z -I. IL L a h I L AA " CE VP U .00 tfunsfifirmstiom at the crit. point, tic rate a -Ling gwills the"' t" 11-00-atiom yi r,# a 111bit. III ~00 ~ tfxxwite and martrusite. on motne qwvw StrVIS ft-ttain -00 00 refessill tKAW gives tripir eirit. pt-hil, 0. fientilomia go oil lkmo, A steel hvi"m the IIIIIsubiff .-,"opjj~ jjv,,* jbi IypvuIcWvr; C0.441. ' Cr OAK mAd NI 3.114%. Vie Ist ImaAwinatitol gives 3411* 0 Nt "i li I t f b h 00 JL on etto e or e o tr. irs , IWW fts pet e l.; l 2"d. 110-3111110, IKV ht.. Kh'" InArtromer 1. Ifir 31d * ' ' - h 00 -N terv of ralre gtrolm t airl IM itirt bt .1 M . awl 00 0* - 00 ZOO * ! 0 Wh ;00 woo 00 . 0o ' Of ;-*~ go, At. It Oc.i #70*. "1 ct.iSIPIC.11C. :jeo 0 0 ~o 0 ` I 0 0 0 0 o 0 o o ga" i tt 11 11 N ~lw n I 0 0 0 : 0 :io 0 0 0 0 0 0 0 0 0 ::O*Oooo*oooo 0009 ooooo 0 69906000000006  A t. -4 tit go A go R BRITTUNESS' F. 11 ud To Kosolove (Irm and Steel, 1946, Tole 21, JM00 pp* to s July. pip. 319-322). This to 0* an Evglish translation of a paper iiihidh appeared in Butnicke Unty, 0 1946. vol. 1, No. 5, pp* 97-101j Too 6, pp. 130-133; U. 7, pp. 155- 0.1 250. The author@ d1stingpish between *permanent* and 4.oV*rqyQ : '3 00 topper brittleness; a steel has pormwent tomper brittleness ibex *0 0 the brittleness to not removed by chuge~ In the rat* of aeollm sod after towerins. The results of LW&ot tooteat +200 C am .78 C *U on low alloy stools tompored at "pious to"eraturej ad of expl"- 0 og, lve tests ca a host tzested chramium-slabol-manadim stool we pre- sented and dismosedo In the latter test charges up to 6-25 g of ox- 2 ploolve were oleetrimaly fired In wall plotoo-like spealwas and .U type at doderwation or fracture designated by umber. It vu rwed that the i""t resistance In both ordinary and explovies tests stools prone to permanent ts"r brittleness, and of oqml tensile strength, Increases with risift tefterift toWeraturs; there was al- i 9 ~ o - al Inear - r 0 11 R t i ~ _~Of *'p-m- #w__ _x_q P wtwo-Ak-9-01 C 0 $ on --- ORO -.the. L A -WALLURCKAL LITERAUMN CLAISWKATIO jog via., Sala" At 04V Obt CA ~- AS) U 4 AT 10 M. , 5 r . . I 1 1. 1 1 P 0 it III a w 09 ;it; 111 ;103 I1x_4_ 0 0 0 0 a 0 0 0 log 90 Go log 00 0 41 0-0 0 0 0 0 0 0 0 6 0 0 0 lee '00 -00 -00 Zoo fte goo 1109 Xo* tee 0  0 0 I IV it ti u W u is I? W 11 a :0 A PROCIISISS AM ~-* -00 I;Jall lit] 1435 kv 30". 42.1 C*fkfJAS -L-18 --- 00 Tempa britlienni it deel, Ft. P"IM)filand V. Kqr;r. - c~ .6vakia). 11"1"14; k(mlavy Zivt%IY. 11sch, csvch k-V (S lbro-14111147). A survvy iA lab. t"t., atul prw1kAl CXIK'fWllcv 4low, thal ill litm-14 bbowing a IK-mianctit tetnprr mrittlVese", i11ftLWt rr5iktunce it% Wdl W~ rlpk~i~ t()UOTK-- iUC~~ with InCYCASinig - ik h i i ll"l. -~tnr tm~ orcult , "minu ternp.. lWmiW (,- At low trinin. -sA', a firwAr crLitianthip exi%ts lar1wren V1,1111-iler ICKIC1111MO allif ifilluct go go 4) %viola .1p 0.1 CIE 0 U 0 11 0 0 0 0 0 0 a 0 0 0 0 0 0 0 :.1: -: :is 0 01 so gi 0 00 0 0000 06000-0 ,t9 see =00 ZO 0 ago 300 --Of Leo tie IS fW 0 0 1 If 04 0 0 0 0 0 0 0 0 * 0 0 00  """too .09 , ~fb,?! 1. - *. =9" To's A I & I I A 1 14 1 1 00 A, -!,., - 1, 1, 1 . 90 U W IL 00 0 'go 0 0: go 00 00 1A 00 Krebbimll (CIL Woonivibelien to thr 00 13 rr*Wm of Tomper W149bram In St"Ll Fr. Fft3boril slid V. Kowlev, Ifut"Icke 0o L1007-r--T.-Nov. Im. P. 97-101., Dcr 1W 1) 130-133: Jan 1947. p. I&S-158. hrsulli, 4ut cit1wrillievils show that In M-1 11"NIVIM "Im-fillunctit" trizilwt.btit Ilrivr", len1wrl OrhWaller nh wAl fulighelf.- Itivres" fit 1111. pitillf. '100 stroullith, witil Ittervahlilit trill I I ),kH 4'V 0 it wts., "IM shown that re Is a hi ,-or rrhitlutiship tw(w(vit V 0 I'mixtaller M 1.1w "Illic.p. 4 78 V.P. too JI too too is. St.. uItH41041 CMUMA1101. tioe U 'A WY LI~P W D, P it M 14 If It It 9 K U it It ft WO A I 11A An L t I fW 0 N a '3 _v -im I Ano 0:00000~000060000000*0000*0,::::oeee*ooooo6oo4 ~48 0 0 0 0 41114 0 0 0 41 0 0 0 0 0 0 0 0 0 41 0 0 0 01 0 0 0 0 0 0 & 0 0 0 * 0 04  a 9070 0*0 * 0 0 0 0 *a 0 .-jel 0 60 00 0 0 0 0 0 00 0 0 & W. 4 . 0 0 *I" f1 11 1 1 1 4 4 11 1) 1) to nt4 I/ j# Pt A$A0 MA hill M7 10 11 11 It 44 dlit;o AA 00 so *9 -0 0 00 ------ be IIW On- x smw 41 No" 00 e Md as I%t,6 jl1r. Poboril and V. Ro-lev- q%d St*el. T. 21, June 1949, p. 289-294; MY ;jrve 1949, p. 319,322. Tramdated from glififirki Lidy twetalloWcal Topics), V. 1, NOV- 1944- P- 97-101; ro: 0 Dec. 946, P, 1-10-133; Jan. 1947, P. 155-15R. Previously abstracted from Original source under Problem of Temper title: "Contribution to the Brittleness in Steel." ~__ MI-0- "00 Aj" MEM& __ -00 I tie* f zoo 111YALLURrICAL UTIRAILOt CLASSIFKAMN -SL v0 I low "'na, !.M., It 0., C41 Jill, 13.1- L" T-4 _. T- I I a I v i 2FTw~ _,% N o U a A#Iso w it it it 00M Knots flurt ICK KID a Ilin 0" 1-so Ono 0 0 0 al 0 0 010 : 0 0 0 *1* 000000,00 00 0 0 0 0 0 * 0 0 * 0 0 IS 04 0 0 0 0 a 6060 000 a a ;~-  0 11111901 9 Dee* 9 051 1,I 1 9 j 4 1 1 f is 11 U 11 it ts !It U I It' It a Is 10 11 0 It 34 is A I U A A- A so A 041 O-NOCtIO1 ANG 08150C011111 isvip SO .4 00 00 00 go a OK CoalrHoatim to 111se lhablew of Tqvotoor Wktkwm In MkvL (in Cwch) Irr, Poixtril-,and V. Ktvwlev Sol e MNtnkke Mottv, v. 1. Nor. 1946.rX. 97-101; Der, 1946. 00- P. 130-183; Jan. 1047, P. 156-1 040, Results of experiments, which art tabulated and charted, show that in starl having "permant,"t" W temper brittleness, Impact resistance, as well a-- 060 l toughness. Increases at the same tensile strength with Increasing temperature. i It was also shovm SO. I that the" is a linear relationship between tovo- new and impact resistance at low temperatures 1-78T.). Results are tabulated and charted. )SUMPA0414111"411 a .00 .00 -00 -00 -0* .00 zoo coo coo O-9--TAlLLuKGKAL LITTOAT1111114 CLASSOPKATIC11 !A *law z U 9 if 00 AS i r P OA1 %undo ~4046 k:` - 9 a 91 a 011 K at Wa a I is 0 : 0" o 4 o 0 0 0 a * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 a 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 too  Ajo 0 0 9 0 0 0 0 0 0 0 * *-* 0 0 a 0-:_ v w V . 11 is &4 ki 16 ly 14 " A; SO is A" a oil Rq Aliq x3rillfadl a a 00' -A t r H A , _Y~ J. F JL_b . "UM004- - - - .-_ __-lop AND -00 00- 14"Ciltil A ke 0 Fol'is AWDIS 00's . A HUM Nstund hw " -00 00 00. 0 ability air (in c... ~Ilw T", U. NO' it and ftentlook Ilichs. 1- 4 0 1951, P. twift. 4 natural as- t -00 00 3 s I J.,fts.j me tes Y d h .0 e et lawc&rlwa steelll quenc ing AO 0 in Water fTqm Ind belclur t" -toltation t -00 004 the Oxistsaft O P VMS Avalwastrassa. Mer, In WN -0 008 ." g 400915 War* w6we am natural alftha IM 0 04 M ninjt ~am dialefulation. T nask" to 1=1 a small In- cres" In b""M jdkal evalu ' .00 0 ood mit's of IV* tests O"or =00 000 on siousel r anair ther- " " "0, V r. I I ld ood . ' . ..r co I awl trest met nod a tally differ- goo nt a ftw a nur"he 'roe of, I Mll Kill NTI 500 vo* goo g 400 oo SIOVI 10"All. 100 goo *Ail ~1_ l An A I a fw 0 * a I All 01 a 01 4 3 ` ~ Is 00 0 it 0 0 a it 14 It 1 V sas 0 0 0 0 o o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 6 0 0 0 0 0 0 0 0i : - a 0 0 0 0 0 0 %~ 0 0 0 0 0 0 0 0 0 0 00 6 0 0 0-0 0 0 0 0 0 0 0 111 0 0 a 0 0 0 0