SCIENTIFIC ABSTRACT ALTGAUZEN, M. N., - ALTMAN, A. B.

I 1 0 If of u Ij If u 4 0, v 33 11 it a A V a A x 11 u u m a !Ium0 A 41 L? C3 41 or* A 6, 1 1 .1 If T it it k Vr 01,08w" ("Swebriamm"). M. N. AL*194unic wtmm Is fftm 4d a geaksW ftmy of thr tomb W pbkwNmr in the frgim of The IWW kke. whk vgrftfiajnphk. optkal and pbm I"wnws wed c". cimfPs. cd %be wdwvaL CM.&L UtANV -00 see :0 1:0 0 r*O 'ICOO 4r0 0 00 g 00 goo 00 00 U A S a - I L a Of TALLURGOCAL LIMATIONI CLASSOICAIICSI a nois io;o woo I~16 too 0 u 6 AT 10 It, 13"0111140t Ila R11 RIIII ts Ell' ,fanl sabdo a INN$"* .00 r'610"S.- 00000;0&OOOOO*oooo*Oooeoeoooooooooooooooooos; it 0 0 0 0 0!10 0 0 0 0 0 0 0 0 0 0 a 0 0 -. 0 0 0 0,00 1 00 00000000000000:,  r4 t AA CC IN 11 6 1 v a 0 a of at to a 4 CO 6 A A a 1, Itll. *:,too 40" W 00 NAM-VWN MA,*. 1 Althautem. I'Pass. AU.I?nkw w. it. m. k.f No. 06, 440a ROSIM M TMSW)~Tbe stra howstilsom indwri 1.9 84. kill. in vageta mit"Ja Jkl I&IJIU* k1n. WW& ttll# prism &w littwitiles. 11oc Ill", ,I 4,vm- VWUI We vmfiwd to *MM Mid bulidar twdirs tof xo* skist-troval a -lite up to w M. tons am wvml M. thi k I h coo c . t dn"k COMm. "Wk MaIg. axwe thom 211 kt. oo hi ttOOVIV c t"Y " ktMftr *It- and wefte-ahalled agStr - 0 stad fwlfov"bk evilittort aw Chem. smi t Am that I t I1w-1&sO(X.T1.A1.Fr,J%fj.NasvA 1jkwds,t%j r see water. avre lninyjwrd 11110 -he A"r1QW4 1"orn dw on. coo nwile ftuwm. R. It. florkwith see wee All I'll, CC, IL $It'll U WOO a%# 0, Joe to a to 0 of 1A It it 14 , 000 00 0 0 e 0 0 0 * e 0 0 IN 0 0 00 0 0 0 0 40 1 1 0 0 0 -a 0 0 0 is 6: 009 00 0-0-0 0 0 0 0 0 000,9 0 v 4 0 4 000 1 000000 o # 0  13r fiL ftlv., M42,14 k" bias so6ibb" Is I pormUto WN t6aft""s VWMPM ow "mon - "at* "t"wo ~~~ um &NAMJ*Ato MAiw dn""s..IN or lkly %UVOM The iftfwtfw VW. a, ibeft  _-AL~I~qAuzml. M.N.; AMIRABLANOV, A.A.; VOLIPSON, F.I.; IRMIR, V--M.; Dffffiffff; O.D.; MALINOVSKIY, F.M. Academiotan losif Fedorovich Grigorlev: on the 70th anniversar7 of his birtb. Sov. geol. 3 no. 9:162-1'05 8 160. (VIRA 13:11) (Griporlev, losif Fedorovich, 1890-)  .ALITOALIZIN, M.N. -I Metallogenstic research* Boy. goo%. 3 no. 11:125-133 N 160. (MMA 13s12) 1. 'Toosoyuxnyy nauabno-Issledovatellskiy in2titut minerallimogo eyrlya. (Ore depoel to)  ALITGAU,EN,.M,N.j GINZBURG, I.I.; DIJBOVSKW~ M.V.; TSRSHOV, A.D.; MSLKOV, V.G.; OSIXIN, N.L; RYUKOVA, Ye.V.; STRAKHCV, N.M.; KRUSHCHOVI W.A.; SHMANSCHKOV, I.V.; SIICIMRaAKOV, D.I.; YANSHINp A.L.1 AHZWIANOV; A.A.; GOTHAN, U.D.j XUFWVt I.N.1 KOROVYAKOV, I.A.1 ORLOVA, F.V.; PASOVAO F.G.; SAAKYAN, PS-S.; TERENTIYEVA) K.F.j SHANOBSKIY) L.M.1 CHERN03VIWI, Yu.L.; SHClismilm, Va. lUrii Konstantinovioh Goretskiij obituary. Sov-9001. 4 no,12: 153-155 D 161. (MIRA 15:2) (Goretskiio Iurii Konstantinovioht 1912-1961)  ALIT4AUZENj N N. "Prospecting for uranium depipits" by A.A. Ikkzhin, Reviewed by M.N. Al I tgjiuken. Sov.geol. 5 no.3-1:135-439; N 162,, (MIRA 15tl2) (uranium ores) 1',TAkLhin,, A.A.)  -- ALITGAUZEN, M.N.. V.I.Vernadskii's role in the organizatinn of iv~stematio search for radioactive ores in oqr country. Sov.geol. 6 no-3:57-60 Mr 163. (MIRA 16'3) (4adioactive prospecting) (Ore deposits)  doktor 1-teol.-min. FUSTOVALOV, L.V., otv. red.; ALITGAUZEN,.14.11 > nauk, red.; DOLGOrOLOV, U.N., red.; IVENSEN, Yu.P.. doktor geol.-min. nauk, red.; WASOV., K-j*~W3t;SWrI-- geol.-vin. nauk, red.; POZIIARITSKIY, K.L_.'.,'d*OIctor geioi.- min, nauk, red.; SMDYUCMKO, D.P.p doktor gool.-min. nauk, red. [Vetals in sedimentary fornations; ferrous netals, non- ferrous light metals] 1-10tally V 08adochNMi tolshchalch; chernye metally, tsvetnye legkie metally. Moskva$ I.-.d-vo "Nauka"I 1964. 443 p. (ILI RA 17 : 8) 1. Akademiva nauk SSSR. Laboratoriya osadochrWkh poleznykh iskopayenWkh. 2. Chlen-korra3pondent All ',133SR (for Pustovaloy) Vlasov).  PUSTOVAlDV, L.V., otv. red.; doktor geol.- min. nauk, red.; VLASOI. K.A., red.[deceased]; DOWPOIJ)V, N.N... red.; IVENSEI,'Yu.P., doktor geol.-min.nauk, red.; POZIURITSKIY, K.L., doktor geol.-min. nauk, red.; SERDYUCHENKO, D.P., doktor geol.-min. nauk, red.;KRASTIOVA, N.E., red. (Metals in sedimentary formations; heavy nonferrous, minor and rare metals) Metally v osadochnykh tolshchakh; tiazlielye tsvetnye metally malye i redkie metally. Moskva, Nauka. 1965. 360 p. (MIRA 19: 1) 1. Moscow. Laboratoriya osadochnykb polezrkykh i3kopayemykh.  SHCILERBIKOV9 D.Lp akadsjo# #lay. red.; YEROFEYEV, B.N.p otv. red.; NALIVXIN, D.V., akador4k, rod.-; M.P.,, red.; DAWCHEV, V.I., red.; MOZESON, D.L.; LEVCHENKO, S.V., red.; CHAYKOVSKIY, V.K., red.; SHEYWAN, V.S., red. izd-va; DOROMINA, IA) tekhn.red.; LAUT, V.G., tekhn.red. IGeochemistry) petrograpby, and mineralogy of sedimentaxy formations] Gookhimiia, potrografiia i mineralogiia osadoch- nykh obrazovanii. Moskvap 1963. 457 P. (MIRA 16:12) (Rocks, Sedimentary)  ALITGALIZEN., N. F. "Exudative Diatheses in Children," Med. Sestra, No.3, 1949  c A A L: me in 904WW amOymia b sewbwe *A h I A ArsWinkli N at flamm. wW k A, lknedikt TbeadmishtmOmof C60 C~edlwlvt owing to mmulation of ibe respimtory mtff, Vapm d Nits prodwe a simkr peoWt. 0. M. X.  ALI TGAUZENp N. N. IIX-Ray Diagnosis of Tumors of the Lateral Cavities of the Brain," Vop. Nevrokhinwg., 12, No.1, 1948 Inst. Neurosurgery im. Burdenko., AMS USSR  - -- - - -- -- -- ---- - - - --- --- ALI TGAUZC, N.H. L.Neuroroanv-s-A-6nology applie-i to obildran] Neirorentgemologila detskogo vosrasts. Mookya,Meidgiz, 1936. 206 p. (mLR4 10:4) (RADIOLOGY0 MIGAL) (MIATRIGS) - 'j,  ),L 7 6:~-l EXCERPTA %,!EDICA See 7 Vol 13/1 Pediatrics Jan 59 NFt*I(O-IiOl-'.N*I'(;I,:NoI,O(;N' INC III IM11001) (Hussian text) -A It ga ive v n N. N. - MOSCow 1!),7)(; (-208j4lgvF) ".)w MM-M a practival matmal imended prillial-Ov fill' pediall-i6aliv interest."d in livill-opathology, rovillgenology mul livilrosill-gul-y' In challivi- 1, the appeavances on I'vivillgellologival investigati(Ill of tile skatil ill ('11ildl er. it-(, de.-Cribed; Special tile- thod.,4 slich as pnell Illovent He ill og raphy, plicp in oellv eplial 0g raphy , atl,-iography and fistulography are included; this chapter coMains also details concerning the ana- tomical pevuliarities of the Atill 'in children (if different alit's. Chapter 11 deah; with awatninical variants and anomalies of skidl and hr.%in dvveloptilent. Chapter III, addlives daw Concerning some forms of inti-auteritie ind early postnatal It,.,.,-ions of the skull, meninges and brafn. In chapter IV tile signs of are dp- st-ribed; contrast methods of inver-ligations a1v included i-,1 thi!; Chapter. Chapter V ilvak With injuries to skull and brain; besides acute craniocerebral traunia, some sections of the chapter discourse tit) the sequelac in(] complicationF of eranio- cerebral traunia. In chapters VI, VII, VIII, IX -and X tile diagnosis of tilillours C-f (lie soft tissues of the heaci, cranial bolles~;I?,J bl'ain is detailed; ill addition, Chip- tcr IX contains data concerning Calcified fol-mations of neoplastic and non-neo- plastic chavueter in meninges and brain; chapter X discusses pneumograliky in verebral tumotirs. Finally. in chapter Na tile roentgenological features of mne forms of epilepsy are described. A bibliographic index of the Hussian anti foreign literature is added. The text is illustrated I~v numerous roentgenograms and dia- grams and brief descriptions of clinical observations. 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W the compn.: 0.116% C. 4,412 %in, 3.M At; U.1V C. J W %to 2 "S M - OAM C. 2.70hin, IS[* At; 0.141 C, 5.46.%111. 06 ly at WO-WAV. Annealed in If, &I I RW aud halt6tically the bills of ittorl s-howed that doling 800 the hiNt interval of anwaling, S. 10 his,, thl: s.-xr6vv fortv dmin quite MOvably; sluting tvatinued Allnexhlig: it dv- i-traws but much niort: Jowly. The lowult 14 V411- ~Ji 400 taintif with Uxw uMn weiv 11.24,11.24, IOU, (1.111 tit 116 Goo order vorre"maliting to the above AnAlylell When 111PY WVI, anstraw in lie. Awsmitt) in sit at IPRI, 1261)'Ior 7 W4, the 7 ro 0 witir tt*ls save minima of tLM OZI, Q.70, ~ 00 1 - It4luition Id cm " ' ' llermealtility increalm with tl " A I force. but while longer annealing ledoced the litttel. t owshility decreavi after "-sching a out, *rhe steei ita~ c s 0 Es tin" prater It-nOmwe than 4% Si tiandurm" A-1. 4 1).8 obtri M i-Q. raw. swr min. M. W. Is. loo '00 !'00 '00 114,41 CLMOVICAtICS 00 lroo .11 to. vall U, Joe qo~ I A x i xF so i Ai " i " ,* - 1 0 0 0 of 0 0 0 0 0 :~O 9 0 6 0 00 0 6 0 0 0 Q 0 0 0 at o i P 0 & 0 00 0 0 0 0 * 10 0 * 0 0 00 of * 0 0 0 a 0 0 * 0 ei~  0 o IJ WO I ii-" ~ . k"Ah 00 fOLP-0 alsol tables ity of am the so a 1 3 so of filldid" 0 141 do" 0 owe NI d so sale nm go 00 0 006 0 00 w c-1 all o N (U.T.S. it'.) 8: I.--Data an given it, 3 I JIM. intell". the" joice of. b" contg. O-M% Ni A at the Imp. A thr ,AW (,jjwq MVT4 loww &be clonill at SILYS. VP to l5%: h NJ cd FQ-Nl alloys, bwl bwtn ttw Mag- lato i to j&-lq.Ow VW19 is Kme than =- -IM t of Part d the dtndy lat~s with Fe efislets. Alloys 71 40 '00 Is so* 00 too log c too slow Iloilo' Ow v to No& 8.10t 0 a so 0,0 0 0 0 0 9 4 0 of* 0 .00 0 9 0 0 0 * 00 000 0  0 0 0 0 6 0 0 0 0 0 0 0 0 0 41 0 a 0 *1* 0 60 0 0 e a 0 0 0 0 0 a 0 0,419 bile 36 so 32 U 14 16 Is V a 30 do 4 C 0 If G K A L PQ Jk 0 00 0 0 at Q as ad 4 AT IS 0 t 1 .0 IT Coe C-10, 49C.. --fIM--LS 1.000 11*00 ~ig-: *4 fj It of Ole uuvtuqlw)t -11 fI I - aqj 1111.%W4 %Aoll" 1.4 ~Ijos 3.4pow JqI smlwau! 00 JUJIULM tq 'ISVA%3 I IV 'JA 1~wv~wp j.&j J/,(Ij 0 o* alsaidirm 4iql tin %Ujj~ lonlusliqns Ou "q t"(11 00, .11 'in 1-4 *1111ft MAU1111111 V~NvaWjl K, 't"Isn"Irtsws - 441 P- 'dllt~i 441 1-144 00- IL 4"'Aft it 0 Ill'tIM31 gal j. lu 00- - X, 0- -ass" )a of- V1992840A pug uoqvuuopuaaL r-f 1.) qOqaqq#&m7 .e) 46 ,,v 11 to 0 of to to 1 H 61 9 u X v f 0-0 0 0 0 0 0 0 0 O'le T 4 '"j fd1 tW1 01 els - f0- TS- ~p fj #1 V, R it of It k (I 6.0 0 0 0 0 0 0 00 : 0, :: 0a 0 * 0 0 00  L-2 Afl~ rr'"'" a, rlotlld- all 11, :arm (ON 104 14) "rct 4 bftklx$ In air on the nla*notk- 1,11COrt 14 ailing lat hrop is matural mriallnetfle has boon lavesilpifti. h conneitka lwtwttO Vts()g co"IcAt AM J~*,- A, j m  ALITCRUZENS 0. N. *Determination of the Flagnetic Field of the Earth Acting in Different Geological Spochopm Is. Ak. Nauk SSSR,, Ser. Geograf. i Geofis., No.1-63 1944 Sci.Res. Inst.0 PeWles Comod"ariat of the hectric Industry  SM71EVA, T. N1. ZAyl!C)VSY,TYA S.- AUGAMP4 C, N, RA FT INI L.-I., "Magneto-dielectric Cores for Radio-Frequencies on the Base of Allsifer (Aluminum-Silic_l_ Iron) Alloy." Iz. Ak. !%Tauk SSSR, Otdel. Tekh. Nauk, No. 10-11, 1945. Submitted 10 Jul 1945. Report U-1582, 6 Doc 1951.  !**of* 0 & 06,00 00 66 V00000#000060000 On I I I I I I 1 0 " 11 it 11"" r 4 a a L a 0. 1 1 go 00 8A 4 It it 0 it m 4 4 As u It is of u ts is 5 k v x P a of 11 418&40 a I a 1 0, 1 4 0 a 82 2340 *0 Pressed -vwdor cores for radio frequencl*a, based on tho alumLuum-silieon- 0 iron alloy mAlalfer R7f.* Zalmovsky, A., and Altgauzen 0. Bull. Aud. **It 6 Sol. IMM (Now. 10-1.1) U31-8 (IM) Di nummum. --UiEifaciuring Proeo" 0 j. to described for the prei4ration of pressod. powder cores from the powdered : 0 alloy comprising 9s5% A14 10% 81 and 8295% Fe. Electrioal characteristics of the core taterial are tabulatede Charactorlstios are oleo presented for coils vount*4 on a variety of core forns. Via cores are reoonmon4od 0 in place of the prooont iron carbonyl and rugnotite corva. So lie At 0" g 040 all'#, ON O-V All ITO IT a 0 to a it a 41 It IIt C1 a 1% ~66 .00 .04 &00 00 60 age N**  of It 9 of If it It At N OWN a -1 A -s-U-LLLLLjJ F f 0 iol 0 b of "a a 4 it 0 0 11 A , . - r , lot ..C, two "Plot - kt. t-W -10 "t I %,.w AL no Va- T ju , I' ,~x 011W (19 t he No I WAOft up to v as* I *WWA& ftopwo ad b4ift an see bm ors *wl to be at wo w# ac (ram &-wy sod at (wWme , 000aftiovkm .1. cWWWOOMI&P dft WA d-OVIN pw* of I-* WbmAty (- A. L. 00 6*0 Bic 1 41. 1'. It, -!!mt-w"Kat &IT11061w Ca.'"VocAli" L 4.4004 .46 C.. d4 dell, it, 5-1- -V u a a 4) it, An I I I aw 0 a a I v 94 *K*flqt "tin IIR I to t I  26241 Ob abHhchikh znk*nemern,)styaId,. *bruzevarlya termanstatechney nim.q.michennesti v Lvignetitakh. Arvestiva akctd. nauk. SSSR, seriya geogr. i geefiz., 194t), No. 4, n. 359-62 SO: MTOPIS 1 NO. 35, 1949 Translations "The General Principles Governing the Forwation of Thermal Reaidual Magnetisation in Magnetites," Is. Ak, Nauk SSSR,, Ser. Geograf. i Osofii... 13, No.4. 1949  ALITGAJIIUA�., kandidat .fisiko-matematicheskikh nauk,- BIUSHTSYU, M.L., wan-l-st, tethnicheskikh nauk; BLARTBR, M.Te.. dokto-r tekhnichaskikh nauk; BOKSHTRYN, S.Z., doktor takhnicheakikh nauk; SOLKHOTITIROU, Ye.N., Imadidat takhatchemkikh nauk; BORZDYKA. A.M.. doktor takhmi- cheskikh nauk; BUNIN, K.P., doktor takhnichoskikh nauk; VINOGRAD, M.I., kaniiidat -ekhnichookikh nauk; VOLOVIK, B.Te., doktor tekhniche- skikh nauk Cdec;;eeal; GAMOV, M.I., inshener; GZLLIR, Tu.A.. doktor tekhnichaskikh nauk; GCMIt,.S.S., kandidat tekhnicheskikh nauk; GOLIDWARG, A.A.* kRndidat takhnichookikh nauk; GOTLIB, L.I.0 kandi- dat takhaichoskikh nank; GRIGOROVICH, V.K., kandidat tekhnicheakikh nauk; GULTAYEV, B.B., doktor takhaichaskikh nauk; DOTGAIWSKIY, Ya.M, kandidat tekhnichaskikh nauk; DUDOVTSR, P.A., kandidat tekhniche- skikh nauk; KIDIN. I.N., doktor takhatchookikh nauk; KIPHIS. 8.1h., tnzhener; KORITSKIT, V.G., kanclidat takhnichaskikh nauk; IANDA, A.F., doktor tekhzichookikh nauk; LNYKIN. 1.X., kandidat takhnichookikh nauk; LIVSKITS, L.S.,~kandidat teklmichaskikh nauk; LIVOV, M.A., imadidat takhnichookikh nauk; KALTSHU,K.A.. kandidat takhniobaskikh nauk; MIYXRSON, G.A., doktor takhnichaskikh nauk; MINMICH, A.N., kandidat takhnichaskikh nauk; MOROZ, L.S., doktor tekhnichaskikh nauk-, NATANSON, A.K., kandidat tekhnichaskikh nauk.- NAKHIMOV, A.M., inzhaner; NAKHIKOV, D.M., kandidat takhnicheekikh nauk; POGODIN- ALIKSIM. G.L. doktor takhnichookikh nauk; POPOVA, N.M.. kauUdat takhnIcheskikh nauk; POPOV, A.A., kandidat tekhpichaskikh nauk; RAKHSHTAM , A.Q., kandidatinkhnicheskikh nauk; ROGXLIBXRG, I.L., kandidat takhaicheakikh nauk; (Continue& on next caW  ALITGAUZXN, O.N.---- (continued) Card 2. SADOVSKIT.. V.D.. doktor takhnichookikh nauk; SALTYIWV, S.A., inshener; SOBOUP, N.D., imndidat takhaicheakikh nauk; SOLODIKHIN, A.G., kandidat takhnicheek1kh nauk; UKANSICIY, U.S., kandidat tokhnichookikh nauk; UTIffSKIY, L.M.. kandidat tekhnicheskik-h nauk; FRIDMAN, Ta.B., doktor teKhnichookikh nauk; KHIXYSHIN, Y.F., kandidat takhnichookikh navik; KMSHCHXV. M.K., doktor tekhnichs- skikh nauk; CHARNASHKIN, Y.G., kandidat takhnichookikh nauk; SHAPIRO, M.N., inzhener; SHKOLINIK, L.M., kandidat tekhnichaskikh nauk; SHRAYBXR. D.S., kandidat takhnichaskikh nauk; SHCHLPOV, N.P., Aoktor takhnichesicilkh nauk; GUDTSOV , N.T., akademik, redaktor; GORODIN, A.M. redaktor Watelletva; VAYNSHTSYN, Ye.B., takhaichaskiy redRktor [Physical metallurgy and the heat treatment of steel and iron; a reference boo1r) Metallovedenio i termicheakela obrabotka stall i chuguna; spravochnik. Pod red. B.T.Dudtoovs, M.L.Bernshteina, A.G. liakhahtadta. Xoskva, Goo. nauchno-takhn. izd-vo lit-17 po chernoi i tsvetnoi metallurgii. 1956. 1204 p. (MIRA 9:9) 1. Chlen -korrespondent Akademii nauk USSR (for Bunin) (Steel-Heat tteatment) (Iron--Heat treatment) (Physical metallurgy)  AUTHOR s _All t&&uz*nT--G,-U_-,._O&ndidate of Physical- lu5-58-6-21/33 -M.fthematical Sciences TITLE: Investigations on the Influence of Temperature Upon the Mag- netic Properties of Dynamo Steel (Issledovaniye vliyaniya tamperatury na magnitnyye svoystva elektrotekhnicheskoy stali) PERIODICALs Blektriohestvo, 1958, Nr 6, pp. 80-02 (USSR) ABSTRACT% Investigations were performed on the influence exerted by heating to 3000C and cooling to -780C upon the induction of dynamo steel in fields with 125 Oe. The investigation was per- formed with hot-rolled steel 0,35 mm in thickness of the typas E 42 andE 43 (produced by the Verkh-Iset factory) and with cold-rolled steel of the typeE 320 of the factory "Blektrostal". The samples weighied25 to 30 9. From the curves of inagnetio permeability forE42 andF43 is to be seen that within the do.. main of ootaparatively weak fields at t30000 the curve takes a higher course than at +180C. The maximum value is attaine%L' by the permeability in weaker fields. At -780C an increase in the maximum permeability and a displacement of the maximum to the domain of stronger fields is observed. In the domain of fields Card 1/3 with 2 to 100 A/om the magnetization c-urves at -780C and~180C  investigations on the Influence of Temperature Upon the 105-58-6-21/33 Magnetic Properties of Dynamo Steel lie higher that at +3000C. The course of the curves is equal in both types of steel. The mean temperature factor of the induo- tion within the range of from 2o to 3000C can be computed from the induction-temperature-diagram thanks to the linear course of the curves. In the case of B it is equal to -7,5.io-5 I/degree, in the case of B -19010-5 1/degree. The greatest 3 - change of induction was observed in the domain of weak fields. In steell�.320 it was found during the measurement that it ir- reyersibly changes its propeties. On heating to 3000C and sub- sequent cooling the permeability decreases. On heating in the domain of weak fields the permeability increases more strongly than in the hot-rolled steels E42 xnd E43. The value of maxi- mum permeability also considerably increases. After aging at 3000C the change of permeability with temperature is less. In contrast to hot-rolled stell no dependence of the temperature factor on the induction was observed in E320 in the range of from 1 to 100 a/cm. The temperature factorlamounts to from 20 to 30.10-5 I/degree. Ibis shown that in cold-rolled steel the change of induction in weak fields is considerably higher than Card 2/3 in the two hot-rolled ones.  -Investigations on the Influence of Temperature Upon the 105-58-6-21/33 Magnetic Properties of Dynamo Steel There ure 7 figures anc I referenae,l of whioh is Soviet. ASSOCIATIONt Tsentrallnyy nauohno-isaledovatellskiy institut chernoy me- tallurgii (Central Scientific Research Institute for Ferrous Metallurgy) SUB~"'ITTED: August 23, 1957 1. Steel--Magnetic properties 2. Steel--Temperellure factors 3. Generators--Materiala Card 3/3  SOV/129-58-11-11/13 AUTHORS: Alltgauzen, O.N., Zusman, Sh. I.,and Stepanova, A.N. TITLE: Th,6r-Mmugnutlu-treatment in vacuum furnaces of magnetically soft alloys with a rectangular hysteresis loop (Termomagnitnaya obrabotka magnituomyagkikh splavov s pryamougollnoy petley gisterezisa v vakuumnykh penhakh) PERIODICAL: Metallovederdlye i Obrabotka Metallov, 19589 lir lilt pp 60-62 (USSR) ABSTRACT: In the Institute for Precision Alloys TsNIIChm, a vacuum shaft furnace with spiral heating elements of nichrome and the alloy B1695 was used which made continuous temperatuge control of the furnace possible, particularly belay 700 0. A sketch, Fig.1, shows the arrangement of the magnetising device and of the specimens during thermo- magnetic treatment (design proposed by N~ A, Kalmychek, NII MRTP). The high temperature annealing and the thermo- magnetic treatment were effected in accordance with regimes enumerated in a Table, p 62. The magnetic properties of alloys after the thermo-magnetic treatment with fields of various magnitudes are graphed in Fig.2. The high temperatuEe treatment consisted of annealiag Card l/A. in vacuum at 1100 C for two hours9 cooling with a 3peed  SOV/129-58-11-11/13 Thermomagnetic treatment in vacuum furnaces of magnetically soft alloys with a rectangular hysteresis 100P of 100 0C/hr to 600 and 200 0C respectively, followed by cooling with the container in air,. The thermo- magnetic treatWent consisted of the following: Alloy 5ORP: heating at ~00 0 for ons hour, cooling in8ide a magnetic field at 50 C/hr to 400 C. cooling by 100 C/hr to 200 C followed by c08 ling with the container in air; alloy 65NP: heating at 790 C for 4 hours, cooling inside a magnetic field to 200 C with a speed of 100 C/hr, followed 0by cooling in air with the container; heating to 800 C for one ho oling insidQ a magnetic field with a speed 100 r~h~odown t V f ~C o 200uC followed by cooling in air with o thecontainer WbY 341*M). Analysis of the obtained results enables the following conclusions; for all the alloys separate high temperature and thermomagnetic treatment in vacuum can result in obtaining magnetic properties which satisfy the specified technical requirements. The magnitude of the magnetic properties depends to a Card 2/4 large extent on the intensity of the field applied during the heat treatment; to obtain a maximum improve- ment of the magnetic properties it is suffiiient for all  SOV/129-58-11-11/13 Thermomagnetic Treatment in Vacuum Furnaces of Magnetically -eresis Loop Soft Alloys with a Rectangular Hyst the tested alloys to use a magnetic field potential of 10 to 15 Oe. An increaae in the magnetic field. strength does not result in an improvement of the properties of the alloys. Within the investigated thicknesses the effect of the thermomagnetic treatment is practically independent of the character of the applied field (d.c., pulsating or 50 c.p.s. fields), provided their amplitude values are the same. This conclusion confirms the results obtained by Kelsall (Physics, 1934, Nr 5). For larger thicknesses it is necessary to verify the influence of the surface effect in the case of treatment with an a.c. field. The carried out work has shown that the thermomagnetic treatment of the investigated alloys can be effected in furnaces used for high temperature treatment of these alloys, provided the magnetising circuits are fed with d.c. or a.c. currents. Card 3/4  SOV/129-58-11-11/13 Thermomagnetic Treatment in Vacuum Furnaces of Magnetically Soft Alloys with a F,ictangular Hysteresis Loop There are 2 figures, 1 table and 3 references, 2 of which are Soviet, 1 English. ASSOCIATION: TsNIIChM 1. Alloys--Heat treatwent 2. Alloys--Magnetic factors 3. Alloys--Properties 4. Vacuixr, fwnaces--Performance Card 4/4  I-AL-- I CIA I -1 P7 tj TI 1 4 4 A'  66238 /F. /M SOV/126-8-3-23/33 AUTHORS: - AlItgauzen, O.N. and Kupalova, I.K. Z; - - ---- - - TITLE; - - -- Temperature Dependence of the Magnetic Properties of the Alloy Yu16 (Alfenol) PER10DICAL: Fizika metallov i metallovedeniye, 1959, Vol 8, Nr 3, PP 459-461 (USSR) ABSTRACT: In the present work the result of a'study of magnetization curves of the alloy Yu16 at temperatures between -78 and 300*C are given. The iron-aluminium alloy Yu16 with an aluminium content of 16 wt % is a magnetically soft material. The experimental alloy was made in a high frequency furnace, subjected to hot, followed by warm, rolling down to a thickness of 0.35 mm. From the strip obtained rings were stamped out which were ther, put together in packets and heat treated. Th%R magnetic measurements were taken by a ballistic method. In Fig 1 to 3 and in the table on p 459, the magnetic properties of this alloy at various temperatures are indicated. The magnetic properties of tha alloy depend essentially on temperature. On cooling to -786C and heating to 2000C, the maximum permeability in both cases Card 1/3 decreases practically reversibly and on heating to  66238 SOV/126-8-3-23/33 Temperature Dependence of the Magnetic Properties of the Alloy Yu16 (Alfenol) 255 to 3000C and subasquent cooling, the change is irreversible - the maximum permeability does not attain the original value. The coercive force remains rractically unchanged in the temperature range of -78 to 200 C and at higher temperatures it increases irreversibly. The irreversible change in magnetic properties appears to be associated with the commencemont of a hardening process (Ref 3) and limits th a possibility of its application at temperatures above 200-C. Some stabilization of properties can be obtained by changing the heat treatment (specimen Nr 2) in such a manner that partial hardening should OL-cur during this process, which somewhat lowers the level cf properties of the alloy but raises its temperature stability on heating to 100 to 2000C. There are 3 figures, 1 table and 3 reforences, 2 of which are Soviet and lPolish.. ASSOCIATION:Tsent.rallnyy nauchno-issledovatellskiy institut chernoy metallurgil (Central Sclentlf�c Research InstItute for Card 2/3 e  , ALITG&UZAN. O.N.; LYUBITSKAYA. O.T.; SOWTS, V.A. --- ___ 6g the magnetic susceptibility of fine wire made of Determiii weakly magnetic materials* Sbor.trud*TSNIIGHK no,22:160-167 159. (MM 13:6) (Wire-Magnetic properties)  - - 0 /" - 2 4 \-' 3 Sov,,-, 3 2-2,~ - 4 AUTHORS: 0. 11. A. TITLE: Methodb of Measor:'ng Ma67,et-',:~ Fxopert~.es of E1s-.trctechn-.r..a,] Step,*. 11-. W~Iak ani mz~an (0 mF--.*--,,1!.ke izirerezuiya magr---"-trykh Y -ab kh I. pc-liyakh) ,y sta $1 Y szc PERIODICAL: zla-fodsksya Laboratc:7,-ya, -,9;:'.P; Vo-f 25, Nr 4. pp 426-423 'USSR" ABSTRACT: Th~ ~nfluer-~E, ~-,f dexagn-.4ti:: sit! on of samples after theraial .trearzer-, the -,ondi-'Zions, for the oT~gin of a magnetic -.ex-nare t:f tlh,~ samyls; are, '.h-! c,f ~he -Tje:7mr,.ab--'A-.ty w-f-~.n time c-, the re.iu'tb o*c,a'n.-~d ~r measuring II.Ye properties of eloltro- t-chr.4,7a! steel 4r w-?a:ic ani mean fields (0.002-25/cm) are in- vest'4gay,~d. The measurements were made at pal,ks ef hot-rolled E A2 and E 43 made up of stamped rilngs (0.35 and 0.r mm ~h-:k), a.5 Ne as at pa:,k5 of steel w--**,-.r-, 3% S- mudi a ~jf bards (0.05-0.5 mm thi-,~k). The properLies wpxk- d=termined by the ball~-t~~tc methDd. The ],:Izagnptlzati--,~ was ma(i,- with the device RU, the magneti- :atlw: b-Ing o1c,tained by the -,ommutation method. The ' , agne'-,. e-a~.,ulated by the. c-arvc,- cbtained. f iL I Card on -~ z~ 'r, -he int erval of 0. 0025-0.13,  SO'I'J'32 2 5 z- 49/7 : Me t h c- d 5f M - 3 --, I r - T 9 M a 97. 1 - Pr 0 T,~; ~,f E 2 e c t S 1 -9 e a k and 11~er Fdc..Id ~i - 'A qr% of thr. Ferweabil.l.ry ~~iai..-ulat~d by the ~:;,U,.6 :J :,I-Ia~ne.:, dl-yrAgns`,`zati.~~n'.. Ir, the fieldq tht-, pezmp.- 'j-', e ma ~ ff,;m the d-~ f f Pren_,7. n the perme- . Y Dptwea- ha r.,~n-~smagnatlzizd End the dema,Tneti- a.::, ( . 1~ 15 fc~irid that 12.t woula be most ~.:)r.- ia*!-ua~. of the inAtial parmna"bility f.7a i~, .~,r_r:ntc s. Ex fo:: fields w! '.h tagfAs sto-va _-.7 4~ a, s-n "a I i,!--! +,v W.?.'h tT d I e p;j: rm e a ime a .in The mpasuring resultB c" th-i M,_ 'Figa C-1, t~.f- grjllvanometii~r changes w-'-th an in- mm~;tat;cns; and dc~ec: rsach 9L con- iver 25 t'Ares. The a3ymmkitzy C_yl -~f -.Irle :bs;_-z-v~d at sampler, whioh were * 4: -P ~,:j I-Ar fAd bkJ~,.re c-o=:ta'U an t -~ r _4 1, t;. d 4 * ma gn, L~-.1"-7:. The lattc-.r may lead to erro.-.-, i% measure.- r, r- n ~ s bth.- tal,.'. ",.z met th-, I. There are 3 f.igu ~-e5 d'~.J 4 ref - eri~-n .-s~ 3 cf w~'Lt_h at- S:.-iLz,!,. ASSOCIATION: -_;sz;lr-d-lvatcl~sk-y insti~ut Qhe.:nc..y metal.- " c d 2 ,- _ ! ;te -f Ir,-n Meua~~gy) R-~~sear~~` Insti~- ~^Prtra, Rr 1 _ ~ . . g  86877 S/105/61/000/'001/004/007 B012/BO59 AUTHORS: Alltgauzen. 0. N., Semenova, N. A., and Stepanova, A. N. TITLE: Effect of Demagne~ization and of Time-dependent Drop of Magnetic Permeability Upon the Latter of Materials for Magnetic Conductors PERIODICAL: Elektrichestvo, 1961, No. 1, PP. 51-55 TEXT: In rresent paper the auti~-,ra discuss the effect of demagnetiza- ,r,.-tj,. permEability end the effec* of a change with time of the tion on ruj f- magnetic rermeability in some Investigai.`on was carried out with Ni-Fe alloys containing 50 and 65~6 nickel, alloys 0-th 79% nickei and molL;bdenum, and alloys with 80r1fo nickel, chromium and Sili"-1 (Refs. 1,2,3), furthermore electrotechnical steel -zontaining silicoi., ccld-rolled steel with 3% silicon, and an iron- al,;minuLL - I'loy wt th aluminum. In order ":) clarif y the ef f so t of de- on tbe n, v, i4~- V.-ope-rties, the latter were determined n.-.e -4tizat. after :eat t.,eattujj,%, )*I- -:,,,1!es which never before have beer, Card 1/3  86877 Effect of Demagnetization and of Time- S/105/61/000/001/004/007 dependent Drop of Magnetic Permeability B012/BO59 Upon the Latter of Materials for Magnetic Conductors in a magnetic field, and then of the same samples after demagnetization through alternating field. Measurements were mude with direct current b, means of the ballistic method (Ref. 5). The change with time of the magnetic properties was checked at the same samples at various times after demagnetization. Also these meNsurements were made by the ballistic method. The investigations showed that the izacrease in permeability on demagnetization is apparently caused by the vormation of the magnetic texture, and the drop with time of the permeability by the de3truction of the magnetic texture, The physical nature of thiB phenomenon is still unexplained and the neceSl31ty of a proper investigation is pointed out (Refs. 6-12). Because of the observed dependence of the magnetic permeability on pre-demagnetization of the alloys after heat treatment and on the time between end of demagnetization and begin of investigation, the authors call for normalization of the method of determining the magnetic properties of soft magnetic alloys. There are 7 figures, 1 table, and 12 references: 10 Soviei and 1 German. Card 2/3  Effect nf Demagnetization and of Time- dependent Drop of Magnetic Permeability Upon the Latter of Materials for Magnetic Conductors ASSOCIATION: TsNTIChM SUBMITTED: October 2, 1959 86877 6/105/61/000/001/004/007 B012/BO59 Card 3/3  ALITGAUZEN, O.N. - - --------------------- Masumment. techniques connected with control of t4e. properties of magnetic materials* Trudy insto Komptandomer i 41mi prib no.64&16-26 162. WMA 1615) Magnetic material&--Testing) (Magnetic measurements)  ALITGAUZEII,, O.N. Methods of determining the initial permeability of modern, magnetically soft alloys. Trudy inst. Kom.stand.mer i izm. prib no.60.55-59 162, Wla 1635) (Alloys-Magnetic properties)  -AL!-TM2ZN-.-O.N,_; SEMENOVA, N.A.; STEPANOVA, A.N. Temporary drop in the magnetic permeability of magnetically soft alloys. Sbor. trud. TSNIICHM no.25:98-103 162. (KMA 15t6) (Alloys-MagnetiC Droperties)  S/776/6Z/000/0Z5/00 1025. AUTHORS., Al1!gai!SpA,_ 0. N., Semenova. N. A. Stepanova, All No TITLE: On the time-delayed drop in magnetic permeability in soft mAgraeuii SOURCE:- Moscow* Teentrallnyy nauchno-Is ledovat 11'skiy institut chernoy no# ja5l& M. matallurgli. Sbornik.trudov. scow, 196Z. Pretsizion V splavy. pp-96-1030 TEXT: This experimental investigation deals with the both theoratically'apd practically important magnetic aftereffect in ferromagnetic materials that consists in a gradual decrease in magnetic permeability (MP) following a demagnetization by an AC, an effect which evokes additional noise in electric circuits. More eNcift- cally, this paper reports the results of an Investigation of the MP of soft magnetic alloys immediately after heat treatment and after demagnetization following various. time intervals between the completion of the demagnetization and the beginning of the. measurements. Specimens were prepared from 7 alloys cast and rolled at the Expeilmental Fac Cory 6f-_Vie -Ts=ChM-(Central-ScienL' fic- Re sea rch-Ins titute-of- Ferrous Metallurgy). Strips 1.0, 0.5V 0.35, 0.2, and 0.1 mm thickwere used to make specimens In the form of packets assembled from stamped rings; tapes of Card-1/3  On- the -time -odelay*d-drd1~1n a~gned S/776/62/000/025/006/025 m C smaller thickness were used to make coiled-core specimens, with Mg-oxide inaula- tion between co-ile and lamellae. The magnetic measurements were performed by the ballistic method after 10-fold commutation at every value of the field. The mag-. netization curves and other magnetic characteristics were determined at room To both immediately following heat treatment and after demagnetization of the speci- mens by a 50-cps AC with decreasing amplitude. In the first instance it waa assumed that following heat treatment, _ which-was -ordinarily -perfoi~med at- T- above, -the Curie To -the specirrietis-Wer-e- -totally demagnetized. The assessment of the de- layed decrease in magnetic permeability or its Increase with time was obtained from the change- in the curv -e-of the-dependence- of the.pertneability on the-field measured after vari6tistime intervals between the completion of taie dem'agnetiza- tion and the beginning of the measurement. Ever- though this method is not a rigor- F ous one for the determination of the change in value of the permeability in a given field, it. does, nevertheless, afford a valid assessment of the trend in the change of the permeability for the en tire curve versus time. The time intervals following the measurement dilrectly after demagnetization w6re 10 and 30 min and then a varying, but prescribeds scale of intervals fron-A I to 336 hours. The effect of the conditions of demagnetization and the time-delayed decrease of the magnetic per- mr1ability are discussed for each of the 7 alloys tested, together with a graphic representation and a full-page tabular summary. An attempt ik made to explain Cartl 2/3  On the time-delayed drop in magnetic .... S/776/621000/025/006/0,1!i the experimental data-obtained in the present investigation by hyl)othesizing t4t the increase in permeability in the alloys following their demagnetixation by a Va. Wile field cats be explained by the appearance in the material pf a magnetic texturq~falolng the direction of tl,,ie field an a result of the demagnetiviation. The magnetic testure: in observed to dii9integrate even at room temperature. the decrease In magn~tlc permeability following demagnetization in the alloy 50Hn (SONP), which has'4, crystallographic texture, can be explained by theassumption that the appearahcel high-tomperature,-anneal, of a crystillogrn iic texture is accomp#Lnied by the formation of a magnetic texture along the direcdcon o~ rolling. - - Upon 40maj;-7-___ netization by the variable field, the character of this texture changes to euch"Jan extent that the magnetic permeability is reduced irreversibly. There are Wigures. I table, and 11 references (4 Rue a ian -language Soviet, 7 English-language,- ?'f which I in Russian trartelation)* Card 313  ALITGAUZE'. 0,N.., kand. rimiko-4mate&. nauk NMagnetic properties of electrical steelm by V.V. Druzhinin. Reviewed by O.N. AlItgnuzen. Elektrotekhnika 34 no.10:79 0 163. (MIRA 16in)  -q, j 55332' L -~65- A( z -WP(6) ACCESSWX,NRc mvww/65/000/000/0190/0165 ~v" 681A42*32A , ~ACJ(V_ ~tshtiikty..- me A~ an 77-7-7. T I-.Ak 16 SOURCE: Vaesovu g=e__soveshcbaniXe gg magnitrillm Aementam avtomattki I vycbis'-i litel'aoy tekhniki, 9th, Yerevan, 1963. M-agnitnr7e =aa ogovyye elementy Mas- netic analog el7r-m-nts); doklady soveshchaniya. io'acow, lzd-vo Nauka, 1965, ISO- 185 ty, neutron irradiation, mignetical!j soft alloy" alloy cold rolling AWTP-tCT- In view of the widespread Incorporation of magnetic f-Ilms Into. elee-. jns U-tut- -prets ix1onnyW, - sp lavov-TsN11CW_ (Ins tituteT-f or- VTVCI~DA_04_1_~' n __of4jja_ ~_J= -theteeb ology-- m.ss preKluctlor! of mgnaticaily sott alloy filtas using the 20-roller stand inKIPM-90 with a 3-35 rnm roller diarm-ter. Ccld rc_)Iling produces filTw 0.02- 0.003 mm thick and 30-40 rxn wide without beat treatment. The paper desci-ibes in conaidzTable detail too production of films, the general magnetic propeirtiez AV-2-  ---of the-zamples,, the magnetie-propertles of 79HHAj 8WOWNWA."' 771M ' and - 7-9HM - a I loysL bin the -60 to +150C temperature range, and the effect of n utr6-n- Irradlao-ion wit on the magnetic properties of the filris. The results seem to agree vith the assumption that: nuclear particle irraeiation has an alverBe effect on magnetic materials by causing radtation defects and radiation ordering (seev e.g., M. A. Artaishevskiy, Ya. F. Saiisarkly, k.MM, 1961, 11, no. 1). Orig. art. has: 2 figures and 5 tables* ASSOCIATION: 'raNXIChM SUB=ED i 28Dec64 ENCL: 00 SUB CODE i M, lec! 002  ACC NRt ABSO-29525 SOURCE CODE: uR/ool~6/(-')6/ol,,/oo3/c,263/'o288 ,WTHOR: Al't9auze 'n) 0. N.; Bezuglaya, L. S.; Bulycheva, Z. N.; LyubetskAya, 0. V. ,ORG: Central Scientific Research Institute of Ferrous Metallurgy im. 1. P. Bardin, ,Moscow (Tsentral'nyy n.-i. institut chernoy metallurgii) TITME: Magnetic properties of alloys for magnetostriction converters SOU.RCE: AkustJcheskiy zhurnal, v. 12, no. 3, 1966, 281-288 !TOPIC TAGS: magnotostrictionp magnetic property, magnetic Induction, nickel, alunin ;alloy, iron alloy/ 8Yu alloy.. 1OYu alloy, 14Yu a3J.oy UMI ! 11 ':ABSTRACT: "Ine authors have investigated the static and dynaude properties of textured[ ,alloys 6YU, 2OYU, and alfer (14Yu), and corw,.ared them with those of Xl nickel ~(GOST649-56) and 5OKF permendur (ChMU4319-53). The 'purpose of the inveztiga~i&n wa' ;t-o obtain a less expensive material, containing no nickel and cobalt which are in 'short supply, for the manufacture of magnetostriction coverters. The material wra ~prepai-ed in the form of sheets 0.2 m thick (Fe-Al) or 0.1 m thick (50KF and nickel). I 17he dependence of the magnetostriction on the induction was determined by simultaneousJ 11y measuring the nagnetostrintion and the induction in a specified field in tension- !gauge and ballistic equipment respectively. the"magnetostriction and its dependence. Ion the induction were measured directly on the sheets, while all the other magnetic Tarameters were determinud using toroidal samples made up of rings stamped from the 'sheets. The statir, magnetic properties were determined by a ballistic method. Tables !Card - 1/2 uDc: 534-232.. 669-715  ACC NRI AP6029525 ;and graphs showing the results of the measurements are presented. The results show Ithat, the magnetostriction of iron-aluminum alloys is close to that the magnetostric- tion of iron-alumiimm alloys is close to that of nickel and permendur, that the co- lercive force is smaller, and the losses are also lower. The most promising is the textured alloy SYU, which in addition to having better magneti,!, and electric proper- ties also has bett(,,r tocbnological properties. Orig. art. has'. 5 figures and 3 Itables. SUB CODE:Iii;W/ SUBM DATE: 13YAY641 ~ORIG REFt 004/ OM REP: 004 2/2  10 0 loll 01, 4 a Ott -00 W-9 05~ 71, P&QUISCI AND PO"1411#1 ~011 A It 1 *60 111 Towle A md its aWfiame to i~eo L- AI'1JMn and M- V- t&I"AYR- Pf"MY N- , -A alwil III the vitwhi A (1) L Period showed a carrea-" we, with AID% of '00 A !;,,a % wo &OW It drug , W I the V*U. Pit- j!! furno W the diseast. most of thev'k having the disease for sk r%d (only 4 cames aill W a oupec-sormal LnW at dweeld of *00 11,11 lonsperwaltJoIc. treatment period). T1VV winary excretim was studied 111 '00 1-: level of I was low. mV. 12.6 -v %. with ads. 4 -1 % VIVA -of the patlestadmins tbetberapy. 7UN&CIebowed ,3 .,: 23 ". Owrotece level w" hisimer than moruW. It W d,,6g the trestalent pericid. starting with sub. re o will Treat- kVJ 0.94 g. .1 11, meet with MODO units daily of I conotestrate for =011 4 tuVagr. and iftekles cortual lavil by Zoo 'I tm therapy appeared to be own 43 - tia caused the sigulficiat rise In blood level. with %o many - , rellichins ouper-oamal levels and !%* ii, a, was rapid and She -M, dwiwmim 14 fueled T&OV from go 10 SIM % after OrA WAO"n*g But" pid diseppearance thar woo tles come I.L.~~ I ;'* 000 tbampy. ar of came The 2MI WoRth in led to IW- add umfttnmt. Combivallos, of 1 (80.000 1. V9 0 months U. dally) the, incM level of I while succe4ding and &K*rbic acid (0.11 g. per cc daily) Wes a satisfactory jAAL! pvv dw either to ease tially stationary state (with "Nis- tb-py for majority of cam or lupus 7111. woo j! 1 tkms) A* to a slight drop; in all Mats I be general level re- "M I valued above normal. Ile cerwent level over the saune woo -WW 9 too zoo K L to T. C, t VIA 11044 "Ulm. Ire IP 4 $-A A IS IT go &%I, S -4 AM a  =W/Mediclne - Vitamin D2 May/Jun 48 Med.tcine - Skin, Tuberculosis and Tuberculids to El- E_ Prizes history of treatment and describes ovn eitperience. Concludes that alcohol solution of vitamin D2 administered in doses of 150,000-200,000 IU dailr far 4 months is a good. treatment for lupus. Out of 50 patlents so treated, 33 recovered, 6 Inproved considerably and 11 improved some. "Zherapy for Lupua Tuberculosis With Vitamin D2,ff Prof A. B. Vaynebtayn, V. L. AlItgauzen, Cand Mod Sol, A. R. Tat'Yanin, Chem Erjgr, 3 PP "Vest Venerol i Dormatol" No 3 18 UMM/Modicine - Vitamin D2 (Contd) M071-TM 48 Therapeutic effect van noticed in 1upus of skin and mucous membranes, Irrespective of type of lupus. Progress in more rapid vith ulcerous lupus. Treatment in simple and generally avail- able. Complications due to vitamin D2 rapidly disappear vith temporary cessation of treatment or vhen dose is decreased. 18/4M8  rn Lj T.. us-.T-/,,:edicinc - skin, 'rubm-culosis and Tuberc-dids yedicine - Vitwain D2 VITreatin.r, Tuberc-,Llar Lupus Vulgariv 'I'01th Vi.tanin D2 (Calciferol),If Prot'. A. B. Vaynshteyn, a j, I is 11) V. I.. qu-zen , Qqn~ ocij. A. P. Tat ly, n n, Imt C it T, eve"11C.-As, 2 pp 111'roblcirty 'I7LaI1(-,flmlcLa" flo 5) 2resents data on 50 Patients, with four photo[;rapli,,. Concludes that alcholic solution of Vita.min d2 manufactured in MIR containing 200,UOU IUlc pcr cc jE Irery e.M.ctive in treat- i.ng tubercular lupus vuli-,ariq orally. Daily 6ose is 10010u0 - 150,OUU - 200,L'u-0 IU's. Duration of treatment !1-6 months or lonj,,cr. PA 21/h9T79  fi-LT-G- A. v -5 E: N, f5, L. - - .YANOVSKAYA, L.M14USEN' B.La. . Iff3at of vitamin in pulmonary tuberculosis. Probl. tuberk., Mockva no.4:59-62 ly-Aug. 1950, (CLKL 20il) 1. Of the Institute of Skin Tuberculosis (Director -- Pr3f. P. V. Shebanov; Scientific Director -- Prof, N. L. Rosmiyanskly).  ALTGAUSICN, V.L;LXPSXAYA, M.V. , " Ascorbic acid In treatment of skin tuberculosis. Gommunication 1. Vast. vener. no-5:43-44 36pt-Oct 1950. (CI14L 20i1) 1. Of the Scientific-Research Institute for Tabercalosis of the Skin (Scientific Director -- Prof. N. L. RossiVanskly).  ALTGAUSEN, Y.L.113PSKATA, M.V. P4 I ~ Water-slat metabolism in skin tuberculosis during massive doses of ascorbic acid. Communication Il. Vast vener. no.504-4 Sept-Oct 1950- (CLML 20:1) 1. Of the Scientific-Research Institute for Tuberculosis of the Skin (Scientific Director - Prof. N. L. Rossiyanskiy).  AL, T ALITGAUZ17.7,9 V. L. Tube.mlin reaction in cutaneous application to different regions of the skin. F',mb1q Tubork., Moak" No. 6,,jLovtDec. 5o .50 ~~ p. 49 1, Of the Scientific-Ronearch Institute for Skin Tuberculosis (DIvoctor.-Prof, F,, V, Shobanov), WIL 20# 3# March 1951  AIITCAUITEN.- ALITGAUZEN, V. P. - "A Study of the Characteristics of Pathogenic Bacteria of the Intestinal Group in the Organism of the House Fly." Sub 22 Dec 52, First Moscow Order of Lenin Medical Inst. (Disaertation for the Degree of Candidate in Medical Sciences). SO: Vechernaya Moskva January-December 1952  LSVIN, Ye.R.; ALITCAUZIM, V.P. Clinical and immunological a9pecto of Escherichia coli infoot,A'ons in young children. Vop.okh.mat. I dot. 4 no.2:21-.26 Mr-Ap 159. (MIR& 120) lo Iz Gorodekoy klinichookoy bol'nitsy No.9 i Mookovskogo nauchno-iseledovatellskogo instituta vak-tair i eyvorotok in. I.I.Nechnikovs. (INTESTINES-BOTERIOLOGY) (CHILDREN--DISUUS)  AL I TGAUZEN,.,,V.R. --, I --~ P~resence of serum agglutinins in intestinal diseases Induced by pathogenic 1-cherichia coli. Zhur.mikrobiol.epid.i immun. 30 no.7:54-57 J1 '59. (MIRA 12111) 1. Is Mookovskogo instituts, vaktaiu i eyvorotok imeni Nechnikova. (ANTIBODISS) (ESGHERICHIA GOLI NFECTIONS - Immunology)  as SHIRVINN, B.G.; RYABINSKAYA, T.F.; DOBKINA, M.S.; OOLUBEVA, I.V.; -?~FTGAUZICN,-Y.P.; NORDSEFTEXR, R.A. Clinical picture and diagnosis of coli enteritis in children. Pedia- trite. 37 no.8;77-82 Ag '59. (KIR& 13:1) 1. Iz Inatituta'pediatrit Ninisterstva zdravookhraneniya RSFSR (dir. A.P. Chernikova, samestitell direktors, po nauchnoy chasti - prof. N.R. Shastin), Institute. imeni Mechnikova (dir. - A.P. Mazychenko) i 4-y gorodskoy klinicheskoy bollnitay (zaveduyushchiy infektsiounym otdoleniyem T.F. Yermolovich). (ENTERITIS, etiology) (39SCHERICHIA COLI IRFECTIONS, in infancy & childhood)  KRAVCHENKOt N.A.; SADYKOVAI V.Bf; ~ITGAUZEN,J.,~; BEMKINA, G.N.; KOSTMOVAp N.N.; SUSLOVAI V.S.; BOCHKOVA, V.A.; NSYMM" P.M. I "Indicator* method for the detection and identification of diphtheria pathogerv cultures, suggested by G.V, Andreava and Z.H. Poliakova. Zhur. mikrobiol., spid. i immun. 40 M038 131-132 Mr 163, (MIRA 1732)  ALI TGAIMMI-RAGIVSKAYAj, V.P.,, kand.modenauk gaments on *Qrganiution of laboratory work at a banitary epidemiological station* by D.B. Rozenfelld. Reviewed by V.P.Alltgausen-Raginskaia. Zdrav. Ros.Feeem.7 no.599-10 Vq'63. (MM 16:6) (Pumic man LAwRATmms) (P.OZEMLIDp D.B.)  ALITGOVZENP M., polkovnik, kand. voyennykh nauk', dotsent Chronicle of outstanding victories. Voen. vest. 42 no.lltl2O- 122 N 062, (MMA 16 t 10) (World War, 1939-1945)  sov/84-58-9-42/51 AUTHOR: AV_tgevzen-j-Z-w_p Engineer,Synoptic Meteorologist TITLE: Our Proposals (Na8hi predlozheniya) PERIODICAL: Grazhdanskaya aviatsiya, 1958, Nr 9, P 35 (USSR) ABSTRACT: The author discusses the inadequacies of the present system of meteorological service, especially with reference to the introductlon of new jet 'equipment. According to tha current system, forecasts embrace al- titudes only up to 4,000 mi whereas jet airliners fly at a 10 to 11,000 m altitude. Also the admiBSible errors (15 km/h in wind velocity and 30* in direction) lose their significance if the relatively very high wind velocities in the upper altitudes are considerdd. Fur- thermore, there is no uniformity in the tolerable forecast errors, The author advocates revision of the existing regulations concerning meteorological services. Card 1/2  Our Proposals SOV/84-58-9-42/51 The system, developed and used for airdrome traffi-I 16 recommended for adoption as the standard system. In- troduction of standards for rating the work of aero- meteorological stations are advocated for certain zones. The Main Administration of Hydrometeorological Service and airports are criticized for laxity in prc~,uring equipment for stations, Television equipment Is urg- ently needed for the transmission of weather forecasts on appropriate channels. Card 2/2  ALTHOFI C. ALTHOF, C. Tntergranular and intragrsnular corrosion. n. Q7. Vol. 13, no. 1/4, 1954p Rudanest, HunRnrv 'KO7,T-'P-"-TYFT SO: Ibnthly List of Ea3t Evronean Accessiins, (FFAL), T,(,, Vol. ';, No. 1, March, 1956  USSR / Plant Physioloay. Renpiration and 4atabolism. Abs Jour :Hof Zhur - Biol.) No 8, 1958, No 34238 Author :Altikhova) A. L, Innt ingrad Agricultural. Institute Title :On the Directed Change of Metabolism. Ori 3 Pub :Zap. Leningr. a.-kh. :Ln-ta, 1956, v)IP- 11) 74--78- xbst:~~ct :Modifications of metabolism with ragard to interrolation of carbohydrates and protein were studied under chan(Ling proto.- periodic conditions I farious phases of groirth of sprinG wheat of Diamant v--rit- -,. Groups of long day plants served as control. Protein and starch in leaves were identified with the help of normal qualities of color reactions; their relative content was vzluad accordinf, to the five-figura system. Plants placed under short day conditions, produced in the fourth phase of Growth a decrease of ot-arch content. A much more sitAificant decrease in protein content was Card 1/2  ALITKORN Ye. (Krakov) 2-= Vage system in Poland's retail trade. Sov. tori, 36 no.10:40-42 0 162. IRA 16:2) (Poland-Wages-Retail trade)  ALIMt A. V. USSR/*gnetIzation Feb 19hT Metallography *Study of the Work of a Magnetizing Devices of an AC Nownenoe-defevv*oocope," A, V, Alltmaj I* I. Yanus, a PP *Zhur Takh Fit" Vol XVII., No 2 Connection diagram of apparatus for detecting defects In steel. Characteristic curTes describing its operat4on. PA 11T25  ALI MI, A. V. 11el 1947 Currentep Electric - Alternating "Me, In4uotion of Residual Magnetiett by en Altermt- U19 Current," A, V, Alltm,, Ra T. Yanue, 10 Vp fthwr Tekb Piz" Vol rM, No 2 Connection diagrams of apparatus for inducing residual magnetism by alternating current. 'a~rstexe- *is diagrams and equations representing subject. action. M'26  ALITMko A. V. "Laws Goverming the YAgnatic fr6parties of Macroheterogeneous Retentive Systems.," Zhur. tekh. fiz.0 19., No-5., 1949  A- -A"-Ar)mP. Mothods of testing petroleum products. Moskva. Gos. nauchno-teklin. izd-vo neftianoi i gorno-topliviioi lit-ry, 1946. 414 P. (49-1~800-6) TP691-A43  AL THAN, A. k. PA 61noo im/Pstrolem Wustr7 Oil Produotion "Standa.L-d izc, !.,.z - sud Normalization in the Petroleum LAustry of the USSR," A. A. AlItman, 31 PP Oveftyanoys I"t%"V&Y8tYo" No 3 Standardizaticn and normalization are most Important factors for accelerating Introduotim of advanced toobnalogical prooess6s, newest types of oquIpment mA newest methods of production. Discusaes briefly problems of Introduction of usable standards for products and equiluent In petroleumindualwy. 61TIM  All A A STARIKOYA. Ys.Y.: D=TAKOVAj Nje.; NOROBIO, V.A.; A:GITXM, A.A.; 'i ROWOVApN.V.l vedushchly redaktor; FOLOSINAt A askly redaktor (Methods of testing petroleum produots3 Metody Ispytanila nefte- produktovs Xoskv&', Gos. nauchno-tekhn. Izd-vo meftianoi i Corno- toplivnoi lit-ry, 1953. 389 P. (Microfilm] (MM 719) (Petroleum products-Tosting)  BORISOVA, M.I., nauchnyy sotrudnik; VLADIMIROV, B.M., nauchnyy sotrudnik; ALfTMAN, A.B.; vALAKrNA, v.m.pEmEw. V.L. Self-lubricating ceramic metal rollers made with graphitic iron. Tekst.prom.22 no.3t8O-82 Mr 162. (NDA 150) 1. Mntrallnyy nauchno-issledovatellskiy institut khlopchatobu- mazhnoy promyshlennosti (TsNIKhBI) (for Borisoval Vla0imirov). 2. Vsesoyuznyy nauchio-issledovatellskiy institut elektromekhaniki (VNIIFN) (for AlItman, Valakina, Memelov). (Spinning machinery)  I 70H L.A-L-L fun 'Move Goo -1-socims --lsisd a" ad Im Wlil" whb Pb and S. D. A. 00 p is ow A - &&1M 690. Bd.V-.Ol Apro 30. 00 1240. The weema MA .t 0 Intrn&mm pw Into the McAten metal. see 00 0 coo; 400 tit 0 WrIMU" CLO VICATION S-Mij'" - -- -t-- Z*,! 'l -;, 7- ILI, Mii- 5 &V No 440, "IV of a  Alk; 0 000 0 0 0 0 W, .-So 1 11 11 .1 1. ! "I " 2 4 - -M -VP- "14 Oc- fee 00 C 006 Odi a so& 00 1 .3 t bawl Tralift of Sleek and Alloys at HiSh Temper. Stale& (in HUnian.1 A.. D. iftand Q. V. ratulin. ac , 7avodikapa LosUratorwya ac ry Laborsturl), v. 13, OcL 1947. p. 1218-1221. Dcocribm a specialty desirwd furnace and textinpr apparitus for the above. Givem, rroults of wxting ur cartoon attelig. with And without 0.1 11h. frout 800*-1200'C,, end of IN 9 stainless Atm-1% rontain- ing T1, and also W, at 20", 600', and 700'C. 0*0 as* a*41 got aloe see Coe we* a** tooP use loom NO-OV I - U NAVIDASO a auto *4 wit 1(11 RU, 0 0 0 0 0 0 0 0 0 9 0  oil -6 to 00-1 004 tow Sal ;L .00 *00 IAWS of M440file Prolverlies of Mar"Aleterchappe"s Malgiselle,441d Systems. (in Ilunian.) A. It. All "I'll, L Sit. KaurritnAil, and Ill. L. hiernelliv. 7hurnaf Tah., nischeskol FWk1 (jotimal of Technical May 1919, p..W.W. zoo Ftlabusla-1 laws of It'sidual JIM11)(11on and rowive fll~'V fM the ObOV11 II)MM11% fit A 11111104111 ill t)hA%V c"Ripwillun. Such laws Itersull ev.Juallot) of ptilwifirs of indal-ePrainle anti ntetal-plulle winjunitioit%. Pet. oisnent ruagnets from the Ft-Si-Al sysivin with whij- ions of C41, Ctl and K were Invi'tig*'11441. Ill-kolls art, Joe* I, hurted moll taludated. !Igo* 400 glow, jiliji, j7~ 111110#9 .-v Ell Gw u SO AT to zr 14 Old 0 a 9 1 ff 0 0 6 * 00 * 0000 0 00 * 0 0 0 0 00 0 4 0 *TO 00000100,000.0*00000000 -00001 0  A7V3jv?! fol M-pl, 1, 9M Penni6ent POU60 #llsllffLIv- Mri- We evrm rnzTtp OrX6 (LIP V3 3u 9). urr= am~- 2 Ubt of rifth ".ton ip~ f~v the rwtaDo,-,rj2rn;c rnagnm I F KkL.u3  'TIkIVAN 11~1~ Subject USSR/Electricity Card 1/1 Pub. 27 - 9/30 AID P - 1285 Authors : Alltman, A. B., Kand. of Tech. Sci. and Melashenko, I. P. _B-ng-------- Title : Metal-ceramic inaterials for electric contacts Periodical : Elektrichestvo, 1, 43-47, Ja 1955 Abstract : The author presents a review of materials produced by powder metallurgy techniques from refactory metal such as tungsten and molybdenum, or from semirefractory ma- terial, such as graphite, nickel, cobalt, or cadmium oxide and their compositions with copper and silver. He describes the technique of production and the struc- ture, application and characteristics of the materials. 13 photographs and diagrams, 10 references (4 Russian, 1941-1952). Institution Scientific Research Institute of the Ministry of Heavy Industry Submitted 11 14, 1954  Category : USSR/14agnetism Ferromagnetism F-11 Abs Jour : Ref Zhur - Fizil~ No 1, 1957 No 14o6 Author ~&B., S~surovich, A.S. Title : Concerning the Depenaente of the Coercive Force of Pressed Ferromasnetic Powders on the Pressing Pressure and on the Particle Concentration Orig Pub : Fiz. metallov i metallovedeniye, 19P5, 1, No 3, 441-445 Abstra:ct : A study is made of the dependence of the coercive force of find Fe and Fe-Co (26% Co) powders on the particle concentration and on the-pre-sure used in compressing the powders. The Fe~and Fe-Co powders were obtained by reducing organic acid salts (particle dimension appro"tely 0,03 microns). H. was measured in a baUistic setup by the deflection method. It is established that changing the packing density of the ferror~ugnbtic Long the*&istances be- particles, by char v4en the groups of particles, does- not affect Hc of thin powders and. pressed parts, in contradiction with Weil's experimental-data.(Weil, C.r. Acad-&-ai. 1947, 225, 229-230). It was observed thatIthe.coercivbUorde of the ptessed parts diminishes with irIcreasing pres+ sure, both for constant and variable concentration of the ferromagnetic par- ticles., The pressure used to compress the.ferromagnetic powders varied from Card 1/2   USSR/Magnetism Ferromagnetism F-4 Abs Jour : Referat Aaur - Fizika, T-40 5, 1957, 12004 Author : All mn, A.B. Inst : - Title Metal-Ceramic Permanent Magnets Orig Pub Poroskbovaya metanurgiya) Yaroslavl', 1956, 295-310 Abstract Survey of properties, technology of manufacture, and application of permanent magnets, obtained by means of powder mL-tallurgy. (See Abstract 12001). Card 1/1  Al'Lpa~L, A.B_ 132 Dependence of the magnetic properties of metallo-ceramic permanent magnets on the porosity. (Zavisimost' magnitnykh svoystv metallokeramicheskikh postoyannylth magnitov ot poristosti.) ODICAL:"Fizik-a Idelallov-i Metallovedenie" (Physics of Metals and Metallu-rgy), 1957, Vol.IV, No,l,,(lq,),,,,,pp.84-88, (U.S.S.R.) -I The results aie described of investigations of the influence of porosity of metallo-ceramic permanent magnets made of alni, alnico, "magnico" and "cunico" on their resp- ective magnetic propeities, i.e. the coercive force, the residual induction and the maximum magnetic energy. The comp- ositions of these magnetic alloys are given in Table 19 P-35- For pore concentrations up to 25% there is an'essentially linear dependence betweer. the magnitud~3s of the residual ind- uction and the maximum magnetic energy. It was confirmed that the coercive force of meta* lo-ceramic nagnets does not depend on the porosit7. Empirical formulae are proposed which enable one to calculate the resieual induction and the maximum mag- netic energy of porous magnetically hard alloys if their respective characteristics in the poreless (dense) state are known, which are valid for alloys vrith He =.480 - 850 Oe Br = 3000 - 12 000 Gausso Wmax = 30 000 - 150 000 erg/cm, porosity up to 25%.  112 Dependence of the nugnetic properties of raetallo-ceramic permanent ma6mets on the porosity. (Cont.) 2 tables, 3 figures, 4 referances, 3 of which are Rassian. Research Institute, Recd. Feb. 15, 1956; Ministry of Electrical Industry. after revision recd. June 27, 1956.  Tv. paper presented at the Intl. Powler Eetilli)rgy '~Ieeting in Lisonacil., 28-31 "'ay 1957. Die Technih,-110. 10, -ot 195,7.  gig ho %lit a at rp. lip VIE LIL Ifla P %;. '~ fm I I aft i [Nit fit 9 E Hill 0 a c' a qL Big ".j1 OU I ~"!.H it  AUTHOR: SOV/126-6-1-5/33 TITLE: Certain Relations Governing the Magnetic Properties of Manganese-Bismuth Permanent Magnets (Nekotoz!yye zakonomernosti magnitnykh svoystv marganets-vismutov3rkh postoyannykh magnitov) POIODICAL: Fizika Metallov i. Metallovedeniye, 1958- Vol.(), No:).. pp 46-51 (USSR) ABSTRACT: Magnetically hard materials based on bismuth-man-anese pow.ders have been investigated by various authors and in the Soviet Union by Ye. N Shtol~ts and Ya. S. Shhur (Refs.9 and 10). The published literature contains a considerable amount of information on the technology an'-, the properties of these maGnets but this is not quite exhaustive enough mid further studies are of considerz:,'_1.1 interest. In this paper the results are described of work relating to magnets pressed from powder of a manganese-bismuth alloy as a fVnction of the conditionp of manufacture and testing. For the manufacti-Lre,. manganese and bismuth were mixed in a ratio of 23~,??, end fused in a stationary electric resistance shaft furnace Card 1/5 inside a steel crucible, The fusion vas affected, in  SO-V/126-6-1-5/33 Certain Relations Governing the Magnetic Properties of Man-anleEe- Bismuth Permwient Magnets air adding ammonium chloride which is capable of forming a protective atmosphere of volatile chlorides with oxides of manganese and bismuth. In the individual experiments the melt was protected from oxidation by means of a flux produced from sodium chloride without using ammonium chloride. The obtained ingots had approximately the same properties in both cases. The tot~-I. duration of the smelting was about five hours., the manganese-bismuth,alloy castings viere crushed i~L a ball-mill in benzol. After drying, the powder was subjected to magnetic separation for separating out non-magnetic particles. The pyrophoricity of the dried powder was low. The chemical compositions of the fractions were 18.4% Mn. 81.6yo Bi for the ferromagnetic and 10.9016 Mn, 89.1% Bi for the non-ferromagnetic, The magnets were pressed from the ferromagrietic fraction into 8 = dia., 12 mm long zylinders in a hydraulic press whilst heating in air inside a magnetic field, the direction of which was identical with the direction Card 2/5 of the pressing, see sketch, Fig.l. p.4?~ Thus, the  SOV/126-6-1-5/33 Certain Relations Governing the Magnetic Properties of Manganese- Bismuth Permanent Magnets method was different from that desc:ribed by Adams et alii (Refs.7 and B) who produced the alloy by smelting in a furnace with a rotating crucible (duration 45 hours) and crushing the castings and pressing the magnets inside a helitm atmosphere,, The experiments aimed essentially at studying the influence of the crushing of the alloy, -the pressure and the temperature of pressing, the.potential of the magnetic field during pressing and the temperature of the ambient medium during the tests on the properties of the pressed specimens, In each series of the tests only one of the conditions was varied, whilst the others were maintained constant. The starting conditions of manufacture were as follows: the specimens were pressed from a powder which was refined b crushing for eight hours, specific Y2 0 pressure 1.3 tons/cm . pressing temperature 280 C." magnetic field potential 11000 Oe-, the tests were carried out at 20 C. For compariso.a the properties of a manganese-bismuth alloy were test-~d in the as-east; Card 3/5 state. The influence of the pressing pressure on the  SOV/126-6-1-5/33 Certain Relations Governing the Magnetic Properties of Manganese- Bismuth Permanent Magnets magnetic properties are graphed in F:Lg.3; the influence of the heating temperature during pressing on the proper-ties of the specimens are graphed in Fig.4; the influence of the ambient medium on the magnetic prope:?ties of the specimens are graphed in Fig.5 and, finally ?the curves of demagnetisation and of the magnetic onergy of the specimens are graphed in Fig.6. The influenco of the magnetic field potential on the magnetic properties of the specimens are entared in Table 2, p 50. It was found that the technology of manufacturing manganese-bismuth pormanent magnets can be considerably simplified compared i;o that described. in literature. The permanent magnets p1roduced in accordance rith the here described echnology had a maximum ma,- energy of 150 000 erg/cJ netic Due to the irreversible decrease of -the magiletic properties (luring cooling of mangELnese-bismuth permanent mai;nets below room temperature, such magnets cannot be used extensivoly in engineerinG. Due t8 the very good magnetic properties of such magnets Card at 20 C it would be advisable to attempt to reduce the 4/5 temperature coefficients of the maSnotic properties of  SOV/126-6-1-5/33 Certain Relations Governing the Magnetic Properties of* Manganese- Bismuth Permanent Magnets such magnets. One of the possibilit-'-es of doing so would be to complicate the chemical composLtion of the alloy on the basis of 'the manganese-bismuth s,,stem. There are 6 f1sures', 2 tables and 13 references, 8 of vhich are Soviet, 2 German, 3 English, SUBMITTED: January 4, 1957 (initiallY) (a, April 21? 1957 fber revision) Card 5/5 1.Magnets--Magnetic properties 2. Powder alloys-Applications 3. Magnets-Productioii  A IT ,,A*B..,;..GLADYSH3ff# P.A. %~ 1. ~ I ." - - Zffect of zirconium and nitrogvn on magnetic Dropertles of permanent iron-nickel-aluminum magnets. In2h.-fit. zhur. no. 6:110-111 Js 158. (MIRA 11:7) (Magneto)  A. B. SOV/126-6-3-10/32 of Ceriaets oil the Basis. of the '1110 ?_'Ifstoja Fe-Ni-Al (Is,,-,JedoviiIiye spell,'Ini,," met, - n! t nove S.4L .,er~ icherki',.h ~,pl,, ~rcnr oc stemy Fe 11.1otallov i ~et'-.zkllovedeniye, 1958, Vol G, Nr 3, ;-i) 1[56-465 (USSR) Thc conditions of 3bi,,u.-LE, Fe-N-i-Al uauL~nets are well known. o aver the physical aito chemical processes tvhich take wL I T)lace durinr:- the ;itLtorin, Of these nn%nats have been liUlc, TDe hard alloys Fo-Li-Al bolonG to tho_~o oiulti-cowponcnt systems which f&i-ia duriri.:_, henatinF-;', t, unifu~-Ji solid solution and can 6cco;iipuse duriu~,, the to form t%%,o phase.,,: an iron- Doce and an interraetallide BiAl ~ReiS 6 to 8). In some ca!_-~es cuch )Iloys contain ad , 4,~tUreS Of ..u I Cobalt copper and titanium t'hich, accor(lin- to A. Geisler (Ref 93, do not tl-.~ choracter (-,f the '~t7_'UCtUrtI tr,3Il.UfOr:IIItiOIIS ill t-,.-. of tl- clloys _i~: co;i1plicated by '611C, prosence of aliuiiiniu~~i ul~d titaniirn vhich ',,.3ve a texiden~,.y ~Jard fclr,,d o-Ades which ~Lrc difficult -to reduce. The ,,.,ork 1/5 described in thi- T)Z,-,)(,r '.ed cait for Ilie purpose of