SCIENTIFIC ABSTRACT MOROZOV, A. N. - MOROZOV, A. P.

Hydrogen Content and the Fornatign -,f Cracks in Semif inished F-r.).Ju,;t s Wi tl" a "eavy : r--e 1, , 10 hoi.,rs the "',Ox2~0 m-,. After this lon:-term anneali:,.e roughed billets were coole,' undor a water sh.)wer I :.eat ) r~r they were cooled in ELir -inl then 'heated to witn subsequent air or water shower c~ooling. (10 heacs Tte roughed blocks from another 5 heatp were annealed for a ion,., time. cooled in air, heated again, and thfm rolled down to a :-quare of 120 to 140 mm edge length These billets did not uniergo further thermal treatment but were cooled in air Althou-~h the experiments were conducted wit~i a steel exhititing a tendency toward crack foratration. cracks could be found in no case. Similar experiments with semifinished steel product from the same heats, which were annealed through 30-40 hours at 660-7000 showed that a repeated heating an-i in p-rticular a subsequent hot working; leads to crack formation It was shown that there is no neeJ to insist on slow coolini--, after forging pressing), In order to prove thir assertior, ro-.ii-hed billets ~square profile with 250 mm edge length) from 6 heats of al,.oyed steels with pearlite, pearlite.m,irtensite, and martPnsite structures were annealed at 660-7000 throu,--h Card 3/4 90-140 hours, rolled down on t~e rOLL.~"Iin,-r mill and sent to  :~., v 1 1 HydroiTen Content and t-e For;.-,at-,--n --)f .1 Cracks in Semifinished froducti~ a ":(,:tvt another plant for an(! rhcrE ifter- the workin- the for~,in,s were couled iri air In nc case :- cra-k formation was fouri~. T.Lese i,~.-,uitz3 ivere cGrifirme(I hy t:i- perience gained witti :~3nrup ton. ,D,,r steel Thprc- are 3 fil-~ures, 2 taLles an.4 jrej'-:ren,e:7. 2f v-iich are 6r.,vie'. ASSOCIATION: Chelyabinsl:ly politekhr,.:-he.,i',.,y ln~;i.-tllt technical Institutp) SUB16ITTED: March 25,, Card 4/4  18(3)) A Re urintsev, V.j. ,.eer: N'crczc-v Technical Sci,_,.:~,., rofes- T'le b'- c F~. (.ve?h ri~z rt;-7.ovaniya sotovyk."r, kipyashchey stali-Y _-RIC] !CAL: :Zvs~ltiyu VySs'.il0l u"he_'LL,",n opinions exi,,:ti-ii r, n c. r r a C, ry _'n j s U.. '_-c t' t t de .'G J~:' dur; c. r c T t i cn i i ,-:,-:tent. Fc, rm, iin oxycr~ri r f- ra o r. n si.uccss '-c,' , f. - L  t: I i .3 S C C IT I K y techniCal T.,31,; KELLfe(Ira metaJ-lALrgii chernykh meta-Uov (Chair of Ferrous Metallurgy) SUI24ITTED: November 17, 1958 - -L 1- 1. , 2  MDRDZOV, A.N., doktor takhn.nauk prof.; STROGkWV. I.A., ~zand.takhn.nauk dots. itRel quality and the technical and economic production in- dices for various methods of pouring. Izv.vys.uchob.zav.; chern.mmt. 2 no.10:169-180 0 '59. (MIRA 13:3) 1. Chelyabinakiy politakhnicheakiy institut. Rokomendovano kafedroy matallurgit stali Chelyabinakogo pollitekhnichoRkogo instituta. (Steel--Metallurgy) (Metallurgical plants--(~uality control)  ADRIANOYA, Y.P.; ANDREY-EY, T.Y.; ARANOVICH, H.S.; BARSKIY, B.S.; GRUMOT, N.P.; GUREVICH, B.Ye.; DYORIN, S.S.; YERMOLAYNY, N.Y.; ZVOLINSKIY, I.S.; KABLUKOYSKIT. A.F.; KAPELOYICH, A.P.; KASHCHUICO, D.S.; E:LIMOYITSKIY. M.D.; KULOSOY, M.I.; KORCLET, A.A.; KOCHIM , Te.Y.; LESKOY, A.Y.; LITSHITS, M.A.; KATYUSHINA, N.Y.; HOROZOY, A.N.; POLUKAROY. D.I.; RAYDELI. P.G.: ROKOI!YAN, Ye.S.; SMOLYARENKO, D.A.; SOKOLOY, A.H.; USHEIN. I.N.; SHAPIRO, B.S.; EFSHTM, Z.D.; ATR[JTSKAYA, R.F., red. izd-va; KARAS , A.I., tekhn.red. (Brief handbook on metallurgy. 19601 Kratkii spravochnik metallur- ,a, 1960. Monkva. Gos.nauchno-tekhn.izd-vo lit-ry po chernoi i tavetnol metallurgii. 1960. 369 P. (MIRA 13:7) (Metallurgy)  LUKOYANCY, Boris Ivanovich; MOROZOT, A.N.. prof.. dolctor takhn.nauk. nauchnyy red.; SM, Te.B.. red.; KCUICHNY, V.I.. tekhn.red. [Heat transfer in metallurgical furnaces as a basis for tneir design] Teplovais raboto metallurgicivskikh pechei kak osnova ikh raschata. Pod nauchnol red. A.N.Korozova. Cheliabiaak. Cheliabinskoe knizhnoe izd-vo, 1960. 126 p. (mIRA 14:1) (Metallurgical furnaces) (Heat--Transmission)  .WL'I'3UVI F.I.; ':04,OZCV, A.".; 1'.'.;C; :-.,% ,.uocarc:. by I: larit ia' oratorin- -ql; i :AiLutc3 in 1~5'7. 3tal 1 20 I ~0. nc. :562 Je ('-..;L A 14:-.) (Ch.'-.-  KOLESANOV, F.F.; MOROZOV, A.N. At the ChelyabinBk Metal-Lrgical Hesearch Institute. Etal I 2C no. 'T;593.., 610 JI '6k. (M 14: 5 j (Sintering) (Steel-Metallurgy) .r 1, 1,P*1  MOROZOV, A.N. Solubility of clay minemls in hydrochloric acid. Trudy VNIGNI no.27:245-250 160. OU FiA 17: 3)  MOROZOV, A.N.; KOROIZV, Yu.M. Effect of exchange cations on the properties olf mcntmcrillon~--,e. Trudy VNIGINI m-,. 1,L - (YIRA 17,1)  PIIASE I BOOK EXPLOITATION SOV/5411 Konferentsiya po fiziko-khimicheskim oanovam proizvodstva stali. 5th, Moscow, 1959. Fiziko-khimicheskiye osnovy proizvodstva stali; trudy konferentaii (Physicochemical Bases of Steel Making; Transactions of the Fifth Conference on the Physicochemica.1 Bases of Steelmaking) Moscow, Metallurgizdat, 1961. 512 p. Errata slip inserted. 3, 700 copies printed. Sponsoring Agency: Akademiya nauk SSSR. Institut metallurgit imeni A.A. Baykova. Responsible Ed.: A.M. Samarin, Corresponding Member, Academy of Sciences USSR; Ed. of Publishing House: Ya. D. Rozentsveyg. Tech. Ed.: V. V. Mikhaylova. Card l/ 16  Physicochemical Bases of (Cont.) SOV/5411 PURPOSE: This collection of articles is intended for engineers and technicians of metallurgical and machine -building plants, senior students of schools of higher education, staff members of design bureaus and planning institutes, and scientific research workers. COVERAGE: The ccilection contains reports presented at the fifth annual convention devoted to the review of the physLcochemical bases of the steelmaking process. These reports deal with problems of the mechanism and kinetics of reactions taking place in the molten metal in steelmaking furnaces. The following are also discussed: problems involved in the production of alloyed steel. the structure of the ingot, the mechanism of solidification. and the converter steelmakIng process. The articles contain conclusions drawn from the results of experimental studies. and are accompanied by references of which most are Soviet. Card 2/16  Physicochemical Bases of (Cont.) SOV/5411 Ladyzhenskiy, B. N., and M. V. Karakula. Making Low-Carbon Alloyed Steels in Acid Open-Hearth Furnaces 27 Stroganov, A- 1. , and.A. N. Morozov. Behavior of Chromium in the Bath of a Basic Open-Hearth Furnace 39 Petukhov, B.G. Making Chromium-Nickel Steels in Large Open- Hearth Furnaces With the Use of Nickel Oxide 46 Omarov, A. K., and A. Ye. Khlebnikov. Intensifying the Working Period of the Open-Hearth Scrap Process 54 [ The f ollo*ing persons participated in the research work: Engineer Munasypova, Engineer T. Kovaleva, and Technicians U. Rakhmanulov, V.V. Ponomareva, L. Rusnyak, Z. Zaporozhan, A. Perkova, S. Biiyalova, and V. Guseva-1 Card 4/16  PHASE I BOOK EXPWITATION SOV/56oo _2!lroz Professor, Doctor of Technical Sciences Sovrerennyy martenovskiy protsess (The Modern Open-Hearth Process) Sverdlovsk, metailurgizdat, 1961. 6oo p. Errata slip inserted. 6y000 copies printed. Reviewer: N. I. Yefanov; Eds.: K. N. Belikoy and Ye. I. Dikshteyn; Ed. of Publishing House: H. L. Kryzhova; Tech. Ed.: Ye. D. Turki-na. PMPOSE: This book is intended for technical personnel of metallurgical and machine-building plants and for members of scientific research and design institutes. It may also be useful to students at schools of higher education. COVERAGE: Experience gained by major ferrous-metallurgy plants and results of investigations carried out during the last fev years in the field of open- hearth steel manufacture are discussed. Attention is given to the fo.Llowing- theoretical fundamentals of steelmaking processes, hzat-engineering problems related to the construction of furnaces, methods of melting metal in basic open-hearth furnaces, methods used in large open-hearth plants, the organi- zation of the operation of these methods, and teeming conditions which ensure Q'itd 1-~-i 0  The Modern Open-Hearth Process SOV/5600 the production of sound ingots. The author thanks the steelzmaldrig sleciaiists and engineers of the Magnitogorsk and Mzhniy Tagil Combines and those of 'he Chelyabinsk., Zlatoust.. Makeyevka, and other plants. He especially tbanks th.e open-hearth process specialists, Engineers K. N. BelIkov, Ye. 1. Dikzhteyn, F. D. Voronov, V. G. Garchenko, N. I. Kolosov, V. 0. Kulikov, I. A. Lubenet,3, G. A. Petrov, N. M. Selivanov, N. A. Sokolov, and Ya. A. Shneyemv. Eacb part of the book is accompanied by references, the majority of which are SovIet. TAM OF COMENTS: Foreword PART T. DEVEWPWMT AND PRESEBT STATE OF OPEN-BEARTH STEEL PRODUCTIOR Ch. I. Development of Open-Hearth Steel Production C The beginning and development of open-hearth steel production in the nineteenth century Open-hearth steel production in Russia before the revolution Development of open-hearth steel production in the I JSSR C4rd_-2[TO     0/137/62/00C/004/017/201 A006/AIGI AUTHORS: 3imonova, Ye. A., Pischikov, M. M., Morozov, A. N. TITLE: Technical and economical production indices in syphon Fuid top cast- Ing of rimming steel for cold-rolled sheets PFRIODTCAL: R(-Ferativnyy zhurnal, Metallurgiya, no. 4, 1962, 48, abstract 4V283 ("Sb. nauchno-tekhn. tr. N.-i. In-t metallurgli Chelyab. sovnarkhoza," 1961, no. 3, 45-64) TE)._T: The authors compared quality Indices of thin 08 Vf_1 (08U) steel s'heet production at all transitional stages: open-hearth shop, blooming mill, hot and cold rolling shop, and metal rejects at two consumer plants, I.e., the Magnitogorsk Metallurgical Combine where the steel is top cast and"Zaporozhstalf" where it is syphon cast. It was established that the amount of waste sheets due to metal defects is approximately equal in both cases. However, at the "Zaporozhstal"' Plant, the metal rejects due to lamination, are by 3.5 times higher at the consumer plant than at the MMK. Total labor consumption for preparing the amounts intended for teeming and finishing of metal at the KKK per one ton of ingots was by 0.068 man-hour less than at "Zaporozhstall". Total Card 112  3/137/62/000/004/017/201 Technical and economical product!on ... A006/A101 co2ts for preparing the composition for teeming and finishing of the metal were by 4.98 rubles per I ton of Ingots less for top casting than for syphon casting. The technical and economical production data indicate that top casting Is more efficient than syphon casting of steel in plants where rimming steel Is cast into large size ingots to be rolled into sheets. P. Arsentlyev [Abstracter's note: Complete translation] Card 212  USUMS S.S.; BELIKOV, A.M.; MOROZOV, A.N Kinetics and the mechamism of chromite reduction by solid carbon. [Sbor. trud.] Nauch.-issl.inst.met. no.4:3-11 161. (MIRA 15:11) (Chromite) (Chemistry, Metallurgic)  ISAYEV, V.F.; MOROZOV, A.N. Conditions for the formation of aluminum nitride in liquid iron. (Sbor. trud.] Nauch.-issl.inst.met. no.4:12-18 161. (MIRA 15:11) (Liquid metals) (Aluminum nitride)  DAMILOVICH, Yu.A-., MOROZOVY A.14, Solubility of oxygen in iron~chramium melts. [Sbor. trud. ff4%uch.-4Wl.jpst.mat. no.4a9- 5 161. (MIRA 15:11) .(Iron-chvmdum ahfeys-,~gen content) (4jqjAd zptadq-i.~en wntent)  GLADKOVSKIYP V.A._L~4O~OZOV, A.~_N.; STROGANOV, A.I.; VACHUGOV, G.A.; Prinin-IJ uchastiyer: BELOV, B.V., inzh.; POPOV, N.P., inzh.; BAYAZITOV, M.I., inzh. Effect of work hardening on the properties of structural steel. [Sbor. trud.] Nauch.-iss34inst.met. no-4:144,150 161. (MIRA 15:11) 1. Nauchno-issledovatellskiy institut metallurgii (for Gladkovskiy, Morozov, Stroganov). 2. Zlatoustovskiy metallurgicheskiy zavod (for Vachugov). (Steel, Structural-Hardening)  BOGATEROV, V.F.; VAY%,S.HTF'INi, 3 -Ya.; ZT REV, P-1 .; KI-JLJSC-V, IN.I.; LUB7-'ETS, I.A.; MOROZ)V, P)VUt-,TShI',, j.Ya.; N, De51liconization of' op-r.-artl iron in '~- nixm-r. j'zv. ./-Is. 1~ 14: q ucheb. zav.; chern. met. no.,. :32-3( '(1. (14, Lr 1. Ghelyabins~iy mptall 1, urpic~p! ~ iy 7avod ~holl-val inski'v nauchno- issledovatel ' skiy instAtilt -Ptall urvii IPI yal inskiy t -)I itekhnich- eskiy institut. (Cast ir-m-r'Ptallurry)  LEONOV) A.F.;jTEQ4Q",N.-; IVANOV, R.M.; VAWIAVSKIY, I.N.; TAUT,',.YF,V. Yu.-',.; IZOTOV, N.P.; VOLKOV, S.S. Smelting of native-alloy steel. Metallurg 6 no.10:20-21 0 161. (MIRA 14:9) 1. orsko-Khalilovskiy matallurgicheakiy kombinut i Chelyabinskiy nauchno-issiedovatellskiy institut metallurgi. (Steel alloys-Metallurgy)  KOROLLTO L.G.; MDRUZOV, AqN. Equilibrium of m. ogen and vanaditus in gamma-iron. Izv. vys. ucheb. zav.; chern I no.9:39-42 162. (~ffRA 15:10) 1. Ghelyabinskiy nauchno-issledovatellskiy institut metallurgii. (Vanadium nitride) (Iroxi--vanadium alloys-Hardening-)  ISAM, V.P.; KOROZOV, A.N. Thenmodynamic conditions of aluminum nitride formation in liquid iron* Izvev7souchebssav.; chern-met. 5 no.11:57-60 162, (MM 15tl2) 1* Nauchno-isaledovatellwkiy institut metallurgii i Chelya- binskiy politekhnicheskiy institut. (Liquid metals) (Aluminum nitride) (Vapor-lipid. equilibrium)  -MOROZOV, A. N. (Chelyabinsk); NOVOKHATSKIY, I. A. (Chely-abinsk) Thermod~~ics of the reduction of ferrous chromite by bydreg!9n. Izv. AN SSSR. Otd. tekh. nauk. Met. i topl. go.6:3-6 M-D '62. NIRA 16:1) (Chromite) (Oxidation-reduction reaction)  I It ('/6:-/UO0/OO7/0O 1/0 03) L07 I/E135 AUTHORS: Korolev, L.G., and Morozov, A.N. TITLE The solubility of nitrogen in liquid iron-vanadium alloys PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Chernaya metallurgiya, no.7, 1962, 27-29 TEXT: Because of the inconsistency of literature data, tne authors investigated the solubility of nitrogen in liquid iron- vanadium alloys using the Siverts method, in which the ainount of dissolved nitrogen is determined from the change.in nitrogen pressure in the reaction system. The apparatus and experimenTal procedure are described in some detail. The following resuit.-i. were obtained for alloys containing from I to 101,o V at lj80 0C and a nitrogen pressure of 760 mm Hg: ~o V: 0.92; 1.06; 1.20; 1.73; 2.3b; 3.63; 4.32; 5-2; 7.7; ~o N- 0.058; 0.072; 0.077; 0.081; 0.093; 0.11-7, 0-140; 0-150; 0-;!72; Card 1/2  The solubility of nitrogen in S/148/62/000/007/001/0U5 E071/E135 ~0 V: 10.7; 5o N: 0.510 The results obtained are in good agreement with those of Pelke and Elliot. There are 2 figures and I table. ASSOCIATION: Chelyabinskiy nauchno-issledovatellskiy institui- metallurgii (Chelyabinsk Scientific Research Institute) Card 2/2  br 4 o 0- 404~1 0 0 o 60 0 ,y ,YQ, Iq "r v ly 0 %J -~ Ir 00 40 0 q)0 A; 16, -Y -Y 0 c '~J f -4~1 ID.0 -4Z '^Y -Y -Y 0 0 0 N ly '-f 0 0 tr 's 0 r,- 0- 0 0 IV ,y '^y -4Z ly -Y -Y -~ v q 0 0 0 TF ^y ly -Y 0 4 0 Q 'y 0 ly ko 60 '-y i v Cv ,.C, "j bF c# j~y o 'o 0 0 69 o e.; (~ A$~ ":. :F Z~ co x o 2 .,y -:r 4 Q ly cy --Qv -Y 'a, -Y a, Z~r K, ~y Z7 0 0 -% 4~ 0 4* -4z, -11 ^y "Y 06~*-y 'y -Y tv qj cl, ci .r 'Dr TF b, --y IZ q Ci -Y ,b oZ~ C7 ci qj -,4Z 0 0 'Y ^v Kj Aj 4-  S/126/62/013/005/024/031 Elll/E435 AUTHORS: Belikov, A.M., Lianyak, S.S., Morozov, A.N. TITLE: Chrome-spinellides and crystallochemical changes during their firing PERIODICAL: Fizika metallov i metallovedeniye, v-13, no-5, 1962, 774-776 71EXT: The structural peculiarities of natural chrome- spinellides with thlb general formula (.Mg,Fe)(Cr,Fe,Al)204 have not been studied sufficiently, The authors have shown that there is a difference between the lattice spacing of the stoichiometric and the excess-oxygen chrome-spinellides, whidh cannot be explained by the difference in chemical composition. Using specially purified specimens, the authors studied the effect of heating in vacuum and in air on lattice spacing. They have tried to compare the heat-treatment-produced change in the spacing and the degree of inversion calculated from it for synthetic Mgl-xFexCr204 and Mg(CryFe2 )04 spinellides with the change in lattice spacing of the naturar compound. The two types are Card 1/3  S/126/62/013/005/024/031 Chrome-spinellides ... Elll/E435 assigned the formulae mg-2 F,+2 (Cr+3Al -t3 Fe+3 )0-2 0.8- 0.2 1.6 0.4 0.2 4.2 mg,2 Fe -~3 (Cr-"3 Al +3 Fe"' 3 )0-2 1.0 0.4 0.2 2.5 0.6 0.1 6.4 where CDO.2 is the number of'vacancies in the tetrahedral spaces in the spinel molecule 4hich must be filled by cations. When type II are heated in vacuo, cations move into these vacancies from the octahedral pores: this and the change of Fe3+ into Fe2+ produces the increase in the lattice spacing. Since the stoichiometric type I is free from such vacancies, heating in vacuo has no effect. On heating in air, vacancies remain in both types. There are 2 figures and I table. Card 2/3  s/126/62/013/005/024/031 Chrome-spinellides ... Elll/E435 ASSOCIATION: Nauchno-issledovatellskiy institut metallurgii g. Chelyabinsk (Scientific Research Institute of Metallurgy, Chelyabinsk) SUBMITTED: MaY 3, 1961 (initially) October 31, 1961 (after revision) Card 3/3  BOGAThNYCIV, V.,F.; 0~ T f I t?- , V(IL~ LPOI-010 t-ski -'r Desilicificatic,r,, of Mart~n iror, Jn mixers. ta 1 U r-e n-. 21-27 Ta-M2-  VORONOV), F.D., prof.; HCR%Qjr.. A.J~., prof., doktor tekhn.nauk; SELIVANOV, L.M., kand.ttkhm.nauk; SMIRNOV, Yu.D., kand.tek--n.naiAr; RABINOVICH, Ye.I., kand.tekdm.nauk; CF-'ROV, G.I., inzh.; T"KAGHENK01 I.A., inzh.; BIKTAGIROV, K.K., inzh.; FILIPPOV, V.M., inzh.; KUSTOBAYEV, G.G., inzh. Making St. 3ps capped steel in Magnitogorsk Metallurgical Combine open-hearth furnaces. Stall 22 no.8:716-,/18 Ag 162. (MIRA 15-7) 1. 14agnitogorskiy metallurgichesk]-y kombinat i Chelyabinskiy nauchno-issledova'Qellskiy institut metallurgii. (Magnitogorsk-Open-haarth process)  LLSNYAKY j.S.; BELIKCJV, A.M.; MOROZON, A.N.; lll~;HIVKOVA, L.A. spinelide behavior -auring heating in red:--c-fng, anc -;xiciz-fnIz o-aseous media. Ogneupory 27 no.9:417-420 162. ~:,E I -': : E* ; 0 1 1. Nauchno-issledovateilskiy institut meta-lurgii Chelyabirlskogo soveta narodnogo khozyaystva. (Spinel group) (Metals., Effect of temperature ~n)  ~7- 7 /Ow 00 4/00voill- jgg:_ -A 54, A 3, Wbeneta 1. A.. Morozov. A. -W aal:Yan V~%S.. ]KIdzbnIchenko. A. M. M41tift eledtivsteA IA. ~he -use. or liquid cast iron 4;: _,~I (MMAL--' Stall no- 1961 32~ :3~5 Liciuia- cast "Irbil ~Ic6ntalnl A.2-A.3%, 0.75 1 1!5% 31; 0.70 ng 23 i ed in' an [A -elsatwio melting 0 0 Orf the Cha3trd, and,. iar'.fed _Iht6-the fu=ae Ifi 4 -6 50%. 76' ':thecurrdivt was,:swit on- -The difficulties en- m~t6s:A&t6r- ched. MAtei ~d es ng after the.cast,ir6n had C been fed 1~fe~re eliminated by feed- tai* a*: -amot e.r ed,after-tapplpg the,first, acidic slag. When Jm equix A .of liquid cast At ioWer tha oxidizing effect Ift elea- Aron,ore, tri. S_ tftejt4rb,.- i#_ ope~h_ ces Ther, quI&Cadtr1ron.melting method -b dd, J steei`~ (Y. 1P, 11~ - Y 7/U7) and _e :u;F_ M5 d' _Ses of the new.method axe a refteed power !1 bearing - s eel A vanta qnsuM b5~ -20%)_.-.avd~ 4-~hlgher: of flawleds products. Best re- ption. output iid  8/i::b 63/000/004/001/011 bii4g _dldctr6stee1'.,_With the use, of liquid cast iron- Ao54/Ai26- Ing . - I Iferevbtained when add -35 4o%:Ucjuid cast iron. Still better results it J;e:..ekp,e,ct4A_ it ihe'. liquid cast iron ned prior to being fed1nto the manganese-.iuld -&:.greiiter. 'part of: the carbon content malting shopti thla Ld 466'1 y b gew. toatmp -the latter proposals by the ioriv,-drd.'no. :,Ye The tests described v 1.~ 1~~ outlln'co-wopdvatiow th N.,,:V.--., vi ys~:~M* 4,,,Yartsev, T..I. Mallnov- sivitA64, M,_: ABorwnp,~46v, -I~1a. Loyberg A F Tat 'There are  ACCE3SION NR: AR401550 S/0137/631000/03.1/AO091AO09 SOURCE; RZh. MetaUumiya, Abs. IIA62 AUTHORi Morozov, A. N.; Isayev, V. ?.I Korolev, L. G. TITLE: Solubility of nitrogen in alloys of iron with elements forming stable nitrides CITED SOURCE: Sb. Teoriya i praktika metallurgii. Chelyabinsk. vy*p. 5. 1963, B-11 - TOPIC TAGS. nitrogen, nitrogen solubility. iron alloy, nitride. stable nitride TRANSIATION: It is shcwn that when a solid nitride is present on the surface of Me. the equilibrium of the system is determined by the-reaction (RXNTb