SCIENTIFIC ABSTRACT PROKHOROVICH, A. V. - PROKOPALO, YE. F.

. .... . .. USSR BACHIMITA, YE. L., et al., Radiotekhniha,~:Vol 26, No 10, 1971, pp,46-52. with direct and quarter-wave couplin q wer~e.. compared, and theJosses at the ~center f the pass band,for.both' t e sof f ilte o ~yp rs compared for thrz,.e types of -(wave guide, air cavity and printed c ramie) demonstrated conplete iden- lines !e ticalness in both types of filters,under othe S. r~equal con~lition The univer- Sal curves for the filters and their _approNima Lion by a hyperbola are investi- and illustrated. The conditions of.Aninimuni losses:'-Ire discul;sed, and .4n-example*calculation is given. The law established in the paper the product o t: the average losses in the filter~circuit times the width of its pass.band is constant -- facilitates xj" the investigation of a filter with -loss". By twing the:universal curves it is possible to determine the losses in thefilter with~ any'nwnber of circuits n and nay pass- bard and to find the.conditions. of minimum:losses~ Vie minimum 4issipative losses in a filter is highly uncritical. Wheel it 1.8-3 (it is tile-, coefficient of rectant-,ularity), the losses -almost do not ~'Vary. Mhen It the losses increase sharply. The type of characteristic (Chebyshev or maximally planar) essentially has no effect on the minimto magnitudi~ of the losses. A 'a '4[the product of the averave losses in the table of values of the constants a filter circuit times the filter pass band] Permits construction of die required hyperbolas for each specific case. Graphs are presented which dep.,.oastrate that the elissipativo lasses in miniature filters.- increase '~;ivli:ply.  USSR UDC 621.332.1 VOROBIQUO, F. M GLINCHUK, K. D, A V. ."IElectroluminescence of GaAs-Alloy Diode's", _itI6 Poluiprovodnikovaya tekhnikd I mikrodlektmnika, ITO: 5, 1971, pp 7-11 Abstract: The study of the electroluminescent properties of GaAs-alloy diodes is continued [F. it. Vorobkalo, et al., PoluDrovodni'-%-ov tekhnika imikroelektro- nik-a,.No.4, Naukova dumka Press, Kiev, 19701. -The.processes of photoluminescence and. electrolminescence of GaAs are studied and the radiation of the homogene- ous (initial GaAs) and inhomogeneous (p-n-'unction) systems is com-Dared. Both the n and p-regions and the space charge layer make a defined contribution to recombination radiation of the CaAs-alloy diodes. During:the process of creation of the p-n-junction tho initial properties of the GaAs do not change. The dependence of the intensity of the ele~Lrcyluninescence on the temperature _~nd_injection current is determlined both by the initial properties of the GaAs and -the properties of the p-n Junction. me sa, The Intensity of electrolwinescence of diodes made of the aa, of Gatus can differ by tens and even hundreds of times. At the sama time, the -thes irs by appreciably less, intensity of- the photoluminescence in a. samples dif f a approximately 2-3 times. This indicate -that significant scattering of the s 1/2  USSR: VOROBKALO, F. M. et al., Poluprovodnikovaya tekhnika i mikroelektronika, No 5, J971 PP -7-11 ..magnitudes of the quantum yield of.~the~ele;dtrol=inescence of-Ga& alloy diodes is connected with insufficient reproducibility,of construction of the diodes (the 0-n junctions) and not the propertie6 of the initial material (with re- spect to photoluminescence properties it is more homogeneous). The fact that in the majority of diodes made:of n-CaAs,~the variation in intensity of the elec- troluminescencewith temperature was appreciably weaker than the intensity of photoluminescence.indicates that with a drop in temperature the proportion of the injection electron-hole current.decre'ases, just as discovered previously [F. M. Vorobkalo, et al., UFZh, No 13, 18101 1968;,FTP, i1o 3, 150, 1969). 2/2  -7~ USSR UDC 533.69.01+533.662.013 .PRQKHOHOMICH, P. A., SUSLOV, G., V.. "Application of the Integral Equation Method to the Solution of tl!e Reverse Boundary Value Problem of Wing Theory" Uch. zap. Gorkov. un-t.' Ser. Xekbdnika (Scientific Notes of Gor'kiy University. Mechanics Series), 1972, Issue 156, No 1)~pp 35-39~ (from M-Iffekhanika, No 3, 'mar _73 -Abstract No 3B296) Translation: An integral equation for the unit vector of the norm, al to the contour is derived as a function of the.polar~angle for -a synmetric profile with a given distribution of the velocity modulus along its contour for a. noncirculating flow. The approximate numerical solutiontechnique is considered that makes it possible to determine the shape of the proftle.: Abstractors note; There was-an error-in deriving the basic integral equation: Im.the expression for the le!~Bth of, element. of arc-:in polar coordinates there 16:glven the f actor Vrl + (1/r) (~7r A) 12 1. Putyatal    USSR UM 539.16:551-46 E CV, L. A., PROKFIORYCEEVA N. P.$ and SUKOVISHIN, V. A., Atla-ntic Scientific P RTS Oceano itIET of F! er ~s Research Imt graphy -~or:Radloaqti-Ve Pollution of the Sea" ~D al Significance-.o Current levels 7- 01 f uchnyye Doklady V~ssihiiy Shkoly;':-Bio Na,~iki, No 7, 1972Y ~6 cow, Ila logicheski~e I -64-68 'PP Abstract: Examination of various organs and tissues of sharks, burbots, tuna, he ts receive consid- rring, eels., and other fishes showed that tbese,hydrobionu erably smaller irradiation doses frot strontixm-90, cesium-137, ancl other artificial radionuclides now polluting the ocean than they do from natural radiation sources non-w.Ily present in the water. The eiposure dose of gwxna radiation from artificial radionuclides,ocattered in thi! ustar is approfiriately one million tines less than from natural radiation sourCes. The average dose of dionuelides' deposited in m-ascle is al;most two inte--nal. irreAation by natural rad hundred times higher than the . averagge dose from cesiwr-137. Appraximately the same ratio is fotwd in all the internal.organs,of the fish. Thust the current 2evels of pollut-Jan of the ocean~and hpdxubionts are, ~.,iot pathorrenic.  II k    77-7-7777---. UNCLX'~Sf F 16'. P'R C :--022 bi ES~ ING DATE--040EC70 --AP0129167 ACCESSION NO mr- PH OF THF ABSTRACT/EXTRACT-a- (U) GP-0- I48STRACT. THE EFFFCY 0 1 ~CO ROS lVE MEDIUM DIN THE CORROSION FATIGUE 0 F 1-1 G A L L;0 YNA~2-1 IN SOLUTIONS.HAVING A STRENGTH OF SIMILAR TO 0.1 N WITH RESPECT TO CIL PRIME NEGAT-lV&IONS,WAS STUDIED. THE OVER ALL LOSS OF FATIGUE STRENG-rH it'i HE SE WAS DIVIDED INTO.TWO COMPONENTS: LOSS! ,'IF 5-TREN"TH (DUE TO PROPERY AND LOSS OF STRENGTH ARISING fitotl THE ~P -4 OF. PH VALUES JEDUCT40N,IN THE CROSS SECTJOI -THE ORRODED SAAOLE, FOE J. 3~' AND 4~,.O THE. LOSSES AROSE-MA FRbM:41~F_ SE*CQ,'ljCI F A C_ TOR ;FOR (y J. W--c",'%-~'014-VALUE BETWEEN,,-4.-AND SE=-~MAINLY F:ROW;YHE_ FlIRSi FACTOR. p- 'a,   USSR UDC: 621-315-592 -PROKLOV, ~V. V., SIM. RLIN, G If. ,and GULYAYE-V Yu.; V. ~"Dlffraction of Electromagnetic Wavcs:by Sound in Oonducting Crystals". Leningrad , Fizika tekInAlca polup)cbvodnikov No 10 1 ~-,l 7 2, PP 1915- 1918, Abstract: Currently, invqetigatioai�l are being qoriducte6, of the 'he, P i0pagation of ultrasonics,In" awaic 6naudt6rs where T Li-Itracorlic e accompanie'd by 6wave of e1 ctrons:of concentrated or e ma b e medium energy. A light wave there.-fore, should andergo additional disperaion by such electron waves, and an investigation of such dispersion should provide valuable inforration on the s,,;ructure of the electron bunches and their dynarAics. For t-his rea.-t:;n, t1lo au- thors of the present paper causidei. the diffrac- Jon oC Lj.,-~ht by ultrasonics in Bemiconductor specimena and theo-Petioally inve,,~,ti-- gate it. For simplicity, they examinie the ca,-.e of nondw!cnerative isotroDic semicandi~ctors for -Which thei,e-are 4.-1,,,o poszibilitie.,j: a Collision of free charge carriers; a noncolli-:,ion plasma. th foi, author,~ Since-the contribution of the: second caue Is Cr6ater, attention i;5,focused on it.  1~0 ~'I i 11 J uss'mt r-4.2m2.46-8 uD. GULYAYEV, Yu.V., IIIANCV, S.N., MNSFELI.D. G. D.:, PROKLOV4 STAMOVSKIY, B.A., 8'MPANOY ~B.G_ (In-t radiotekhn.~ A. radloe 0 lektr. - n'. AN sm-.-,rnstitute Of Radio Engineering And Radio Electron ice, AS., USSR Itraednic High-Frequency Transducer.". USSR Author's Certificate No 250554, Filed 5. uly-67, j :Published 16 Jan 70 (f rom _.'_RZh-m;-~Elektronika i yeVe primerieniyei-NO 8. AuguetJ970,_. Ab~stract~ iN-o &!.547P): Translationi An ultrasonic high-frequency transducer paten4ed for ua!!~ in U-r3sonic ei lines and ultrasonic ampliftera contains a- ranonator ii nd a- lezoeemiconductor 4. p -crystalinvolving a layer atripped of char ge cetriere Jith the objei:;t of obtaining ultrasonic oscillations of ultra-high frequency, the plato.somicon.ductor crystal is nnected.with,the central core of~the xesonator by a thin dielectric layer (e.g., mics), and a, controlled voltage scurce:.ia,.ponn*oted:to the cantrall.core of the oonator and to the.crystal.. I ill L.K    GIRC ACCESSIONAO-AP0105285   A- USSR UDC 547,558.11 PROKOFfYEV, A. I SOLODNIKOV, S. P., MALAKHOVA, 1. G.: TSVETKOVII Ye. N., aad.1KABACOM, M. I., Institute of,Metal':Qrgapic Gompodnds, Academy of -Sciences:-USSR '~'EPR Spectra of Phosphorus-Containing Ethyl Benzoates,' Leningrad, Zhurnal Obshchey Khimii, Vol 43 (105), No 12., Dec,73, pp 2621- 12626 ave been studied containing Abstract: Anion radicals of ethyl benzoates h. el,-ctron acceptor and electron donor groups such as pho~phino- and phosphinyl has been de- groups in meta- and para- Positions. kc,orrelation functionl 'veloved for-the constants of,superfine interaction with:the artho protons + 0.23T)- It of ethylbenzoates a 2 and the lle~f, const.ant.,q. (v (Y off ~~has- been that in all-of, the ~ S'tu(fiedi' .6ompound t e~;phosphina- and ch r " t r~. phosphinyl.groups:,shov an electr6h~-*acceptj:hg~ a a - e The`k76ff constant values-of the phosphorus containing''substituents a .7a gree with the ki.tox characteristics of their electrortie~effecta   030-- UNCLASSIFIED PROCESSING DA,rE--230CT70 :ACCEss~idN NO--AP0124412-''    ~~-CDNTROL MARK I NG-NO -RESTRICTIONS :~~OOCUMENT.CLASS--UNCLASSIFIED .'~'PAOXY RFEL/FRAME-1-1987/0314 STEP *40-:-,UR/0192/70/Oll/OGl/Dl29/0131 CIRC ACCESSION NO--AP0103969 UNCLASSIFIED   -USSR UDC: 632.9S KOCAN, IT. Sh., PRCKOF'YEV, SHCHEGLOV, Yu. 17. , KULIKOV, G. P -A. N. , KONTALENKO, 1. S. I'Dialkyl Phosphites Synergists of' 2,4,-DichlorophenDxyacetic Acid Esters" ul ya, novs rks of ~the~ lillyai-iovsk Ex- WO k. s. -kh. 0 Yt!). St..( tal Agriculture Station), 19 5, pp ffrom perimen. No 7, Apr 72, Abstract No TN642) ea, %e re vact to blx~-,r` _P ra - Til to i f I - q addl t i on of factor 0- lcala~lr,, ;~I~nalmst allnual and mixture of I a] - -14 11 Controls T)ere-nm"al rit 1z o.-_l -Z weed,: or n v- -r e ae its for c,_- alore. The ad- of 11. "If.) does V_O'l Plants. T.   _~2/2 034 ~UNCLASSIFIED P_P%.OCESS INS DATE--160CT70 :XJRC ACCESSION NO--AP0118675 BSTRAC.T/EXTRACT---(U) GP-0--~ ABSTRACT. AN INSTALLATION IS i"ONSIDERED FOR ING VAPIABLE BOUNDARY CONDITIONS OF THE THlkD K I N~.;. IT ALLOWS -:.~SOLUTION OF UNSTEADY THERMAL CONDUCTIVITY TO BE O~TAINED ON R-C GRIDS :WtTH CONTINUOUS CHANGE 1,14 TIME. NOT ONLY OF MEDIUM.TEMPERATURE TSUBC BUT ALSO HEAT TRANSFER COEFFICIENT ALPHA.: THOUGH THE INSTALLATION IS DESIGNED FOR A PASSIVE MUDELi~IT IS BA *SED UN THE PRINCIPLES OF ~ELECTRONIC SIMULATION, THE OPERATION OF THE lNSTAiLATION IS BASED ON A NEW METHOD OF PRESCRI13ING THE BOUNDARY CONDITIONS OF THE THIRD KIND ','.~-WHICH ALLOWS ELIMINATION OF THE ELECTRIC:ANALOG OF~.CUEFFIC~,ENT ALPHA (CONDUCTIVITY) FROM THE MODEL AND THEIR~'SIMULATIQN~ BY THE VOLTAGE. THE FOR CALCULATING THF_.PARAMETER&,:LlF..!THE INSTALLATION ARE PRESENTED -.AND THE SWAYS OF THEIR REALIZATION. .BARE, SHOWN'a UNCLASSIFIED,  777~- USSR uDc 669.14#018.295,62C!.183 P and KOPYEV, 1. M., Moscow "Phase Composition and Thermal Stability of High-Strength Fine Stael Wire" Moscow, Izvestiya Akademil Nauk SSSR, lie tally jNo 1, Jan-Feb 74P 134-137 Abstracts The effect of beat treatmen-t. on phase composition of steel wire and its stability in relation to annealing time and temperature wi%.ire studied for the purpose of determining the beat steel:'wire "%-,0 use as the :i-einf oreing fiber. in composite materials, Fine steeLwires uere m-ade from tL-Lee steels with a tensile strength above 250 kg/mm2. The steels used werei F2 322 (RhI31113Mz) with unstable austenite, maraging 1-3200 (1118K91115T) , aiid ari Fe-Co- X~-Cr aging steel 4OKhNVITrfu. Steel EP 322, after arinealing at 4,50 and 5000 C, retains structural stability, Isemp She austenite-martensite ratia is prac- ticaUy unchanged. Amiealing at 600 C for 100 hours incre", es atm-tenite content -to M. Af ter guaiealirg at 400 and 500o Cj steel XS200 retains t1q. structural- stability, having only maxtensite. Annealing at 600 a4d 700 leads to the formation of austenite in IISZOO. -- reverse iiartensits transformation. 0 The austenite content foraed-ia almost 7Vp after soaking for two hours a.-t 700 C. Steel 40KXhML7TYu has an austenite structure. after all modes 6,f heat treatment. 14   USSA wo 669-017/,018-4,5:62_0.18 AGEYz-.V t: 11. V.t SAIITSKIY, YE. M. KOMILOV 1,.:: 1.. ZUDIN ~I, .,.and FROKOPTEVo "I EdItoiz �truktura i Svoystva Zharoprochnykh Metallichelskikh Natorialov (Structurc and Proprties of Heat-Resistant Metallic haterials) Roscov, "Naukal" 1973, 262 pp -Translation: Result5 are generalized from studies.associated with the physical criteria of neat resistance; the role of.the electron structure of alloys; the principles of. all oy. and dispersion hardening of -alloys; the., physico-chemical _basis~ for developin.-I composite materials; dislocation m6chanisms of failure and *d f tioni-the development of alloys on the basis of Fe,.Ni, Vio, Ub, and other e,orna ;,.-~..--..,_refractor,,r plements;- v.,ays of increasing the heat resistance,-of alloys a-rid others. This publication. is intended Sor, researchersj'metallurgistE;~ metals e~cpert5j Uhe designers ~of the powers aviationj~ and. machine-~building indusitries, and for other ,TS .~Section. One OF VE PHYS00 C1112-11CAL ThIDORY OF HEAT FMISTANCE YE`~ M. SAVITSKIY V.- B. GRIBUL-fA -Fr-edictibig- Refractory Compounds in.the Binar-j Sy", s With tne Aid of a -.Digital -Computer (Postulation of the Problem) 3 D.: A~ - PROKOSMINT, YE. V. VttS:f---TIYEVA 'The Relationship Between High-Temperature Strength of the Tronsition 1/7- - - - ___ __ - - ____ -1  WSR AGMY N V.,,, et al. Structure and Frolrerties of - ,KatezUlr, 111ocowt 1973 -,Metals; and Their Electron Structure V# K.` GRICOROVICII Heatm,-Resistance and Electron Structure of 1,jetallic Alloys 20 -A.,-- S. B. MUSIDNIKOV Prospects forthe D&velopment of 11cat-Resistant Alloys (N w Heat Resis- ~tant, and Scale~Resistwnt Grades of Steel 13uld Al-16 s) 29 UZ IN -S. V.- ZEKISKlY, YU. L. _RODIONOV The:Distribution of Elements in the 1. Iicro- and- Submicro-Regions of -Jfeet,~4Resistant.Grades of Steel md Al loys 41 BO' DYKA 117 Relaxation Resistance of Austen-ite Grades of Steel and Alloys in Relation Q_ I heir -Structure mid Heek, TrealEment lig A. I APAYE VS. -V IQVI, S. K. VVIYLOV: A. I WfAl. _~_ n .The,l terralaiionship of k1loy '41cakening. Durihg Heatina With the Redistribution Processes of the Alloying Ejefl~n! ts. Between Phases and . 'With the:Eff ect of the Contacting: lleditTAI ectiom Tw-o V!;'ILIH~NTI~~i, OT~JY- J i-_Ci' 2/7  - AGEYEV, Y."et al., Structuxe ands Proportiva of ficat-Reziotallt I.,je tallic WiUrials , H oscow, 1973 -V*-,-Se IvanoVa' V. A. Yermishkin - :Theo r7.Gf High-Temperature CreepIn Metals 6t, --A Movehan Lo PI Nerodenko -Statistical A proach to the Description of PI:astic Deformation and the p -Resistance of Metals !Hdat 70 I. Fedosov, Yu. P.~Belolipe skiy, L. I.. Ostrovskiy, t Kryanin, A* .1 ikin G.N Zelentsov, Id. G. Kabelevskiy,. L. 1 ii v I -Vo~opdyevj L.,I. Stolyarova, V,`-N. Romanov. ~ :'Ijetal_ Structur and Structural Strength.of the Elements of~Powerful e T bines i Steam~ ur so N.~,'.Rykalin' M. Kh. Shorshorov, V, P. Alekhin', blein Associated With the Structural and Energy Characteristics ssociated With-the Kinetics of thel-licroplastic Deformations Near . ie7 urface of a Sol- id 89 A. V. Shalimova 0 lem Associated With the Reasons,for the Onset of the Third Stage of cre 9 tion Third Sec ' 3/7 11.1 1 ]z i,  USSR ACEM. i it. V. Ot P-1., St-ructure ard Properties of Heat-Re. stant Neia-111c p i t6rlals- 1-105cow, 1073 E LS IL J.T- PX3ISTART 1-2-1AIS A1.0. C015;OSI7173 MATERIAL V. Ye.:Ovcharenkol I. I. Koch-epasov, L I. Ye. F. Dudarev ~:Ye. Panin V . i j Za ts ya s. R ai 5 1 r It" the Ther-mal Stzlbiliuy of Compo3ite Materials which Are Bas(,.d 'on Nickel and Reinforced With Tungsten and M61ybdemm Fibers by Directea ' ... Hatrix, Alloying 2 10 Ks I..Portnoy Materials Stj-a6t ure.and Ileat-w-Resistince of Composite 1 14, A. TiNionovskiy. Somovi on,-ro able Phase Tmsitioris . and Gmbosite: t. I b t e r i a is Section Four OD nilhT TW, TENIG IIEAT-~=ISTAIIIT ALLOYS V~ D 'Y S. N Petrova$ -Y P.., Surkoiv . Sadovsk, xu . . emnerature Heat-Treatr ent. of Heat-Resist-ant Alloys I 127 F-~~ IZ-shko L V. Zaslavzkayaa, -L.'S~ Fedo--! ova , ni a L nd P', tic and float Pa Liculars of Al-lC, incr a hnl~o 1-arde - ., n t. -~i --L r of  J. 'USSR AGEYEVt 11. V., at al., Structure and Pro.,rertieri of Heat-Ros4istant ~iwtaljjc yaterial X 1073 S uscowt Heat-Resistant Properties. I.; R& -nin, L. P. Trusov, Z. N;. Petropavloskaya Kry- Structure and Prouerties of Grades,of Steel for Power Equipment Elements Levin, -Ye. Mo Pivnik -.-So V tanyukovich, Ye. Ye of Structure on the Heat-Resistuance md. Plasticity of Nickel Based Ailo YS M;.: P ~- Braun e - Iloying Heat-11I esistant Steel Th Problein of Ilicro-1 0 A.- Barmykh, R. -VolImvat B. V. Kuborskiyj I. A. Rastorguyeva. of the 51-ructUral State on-the Short4erm Heat-Resistance -of 1,1icicel B~iscd Alloy G. B#- -Fedlorov, Ye. A. SmimOv 1140 147 154 -159 167 sistance 171 'iffu;- mic Criteria of Heat-Re ~Jnterdiffusion and the D ion-Thermodyna. -A _Ya. Shiny4yev -ritic Characteristics of Diffusion 'ed t I Ch a r. g: i n gthe ctute In A ya as a L f the Compa;5it, ri'and.the Phase S".Mj i1q, Funct mi c 179 M. A. Kri5htal The Effect o f Crystal Lattice Defects- and Diffusion on the Particulars of ~Processes Which Develop Diaringr the Working of Metals amd Alloys in th.,.  E- 7 7- P MSR '11. V. et al. Structure and Propertie.s.of Heat-Reilistall.t 11410tallic YAterials, 1,11oscow, 1973 Aigh-Temperature Range 186 L. 11., Zimina spe 1, s Moyed _h P ro cts for the Creatior of New Heato-Resistant Moy ' :"iobium T G. Berezina, 1. 1. 14ints, V. P. Kendysh TI i;e Effect of the Energy of the Defects of Packing on the Themal Stabili- of Q6'Substructure of Heat-Resistant Austenitic Grades:Of SlUeel 203 V. -Bob lev Y The liature of the Fatigue of Copper, Aluminum;and Nickel Durilig Strcn.ch- 203 F-. sa-Vits1--lyt 1. S. Cilw~hlantseva Preventing the Poivation of Intercrystalline'Pores During Cyclic Heat-m;Ire-Itment With t -lie Aid of Alloying 211 'ection: Five, 0 r CIIZfSB,!G THE IIMT RE, SISTAI-11CE OF ALIDYS Prosvirin rt-;n!;, Stn=~,ire z~nd the "echanism of l"orma, -;Qr; 0.1. t""~ pJA 4 e- From 't  AGEYEV9 N. V., et al., Structure and Properties of Heat-Resistant Metallic Haterialst Hoscow, 1973 i -YuG M* Lc tin The.Effect,'of Nitriding on the Properties of Heat-Re sistant Allo s. Y 225 V~ I*. Alen'kin, V. A. Kulikov, N. I.1. Z ayt s eva Studying Ahe Formation of the 1-ficrostnicture.During the Internal Oxidation , Binary Nickel Alloys 229 Yi~.~ I.. Kozub. Creep and Long-Terr, Strength of Refractory Materials With Protective in on Oxidizing Hediun 237 I.I.Ni Frantsvich, Ye. A. Zhurakovskiy, D. F*~ Kalinovich, 1. 1. Rove-n-skiy, II.:'D Smolin N. OstroWdiov: A6 ~Sbifie.New. Physical Criteria of Heat-Rudstan'Ce, 2A4 7/7 i H 1 1. 11 1 1  F _T~38 M C 620.17039-562 66 9.7 BORIM, 0. A.,, BIZALOVI YU. YE. KrrKOVXIN,! A. A... KOU!)2V 1. "i-nd 'YE-Vj D. I., Institute of Mletall Imeni A. Ad Bay~ov _FROKOF urgy "High-Strength Wires for Reinforcement Light Allaystr of Moscov, Metallovedeniye i Ter.,dcheskaya Obrabotka Eetallov, 110 7, 10,73, pp 40-45 Abstracts A study was made of the mechanical properties, depending on tenre-ring ngth wires:froa steels of industrial melts: temperature and time, of high-stre. US~ - carbon steel (1), V 1, S 9 ( 2 K h 15 -,5A NO )austenitic nartensite steel (2), ging. steel, (3) E. ~322 (cT(.h Aa4aj mizoo(1,181.91ITT) mtartenulte-a. austanite steel (4), ard ari aging alloy based~on Fe-Co_4i-oCr (40UThl-01TYu) X-ra, y structural analysis revealed that the loss of.'strength of, t he wire at; Increasing, ng tempreature is -Onarally determined by processes, of recovery in cold- temp rJ U 0 J te, the development of ~~-translfo=:,.atlon, and also def am, ed martensi. *~Or~coa_,-ulation.of particles of excezaphases Wires of steel (1). weakened at atures. ~~-,100 C, of steels (2~, (3), ~-d (4) temperatures -:~,5000C, temper. and of (5) - at tommatatures 6C - %, 50 C. Thezelection o a technol,ojv for tF roducir cht alloy-wire composite.derands on the loss-6f-streng h temperature r g a liZ p of. the uIre. A liquid-phase technology can be applied in sfrengthening with  At ;1-~ PRA w 3 R tzetaUoved.6nlyo. 12jimicheskaya Obnbotka I-Ititalloy ?6 -n:4031 .40-45 -fibe= of~ alloy OY -",I stre -hm -,4t alloy: ~~eelsi (2)i;(3)s, and (4), Ii ngt ning..uires i~vlid4 6 zptho& itith h, e, Atin