ZHADAN, A.M., Cand Agr Sci (diss) 'IFffect of th-e Of X4)%VjCM ~n the digestibility, metabolismand fattening qualities of h6gs." Kiev, 1958 (Min of Agr UkSSR. Ukrainian Acad of Agr) 100 conies (KL, 28-58, 108) 61 mr a mgm romommm"- '15  ZHADAN, A. V. Cand AGr Sci (diss) "Effect of fresh beer yeasts on the fatness of milk; the digestibility and metabolism under different feeding L (Ministry of Agriculture RSFSR, of cows." Leningrad, 1961;);16 pp; Leningrad Agricultural Ins 150 copies;price not given; (KL, 6-61 sup, 231)  I GULTT, M.310., akademik; PSHNNICHM, P.D., akademik; VASIMNIO, D.Ta., kand.seliskokhozyaystvennykh nauk; ZHADAN, A.V.; CHIZHSKAMI, G.Ta. ........... Stimulating the formation of butterfat in cows by diversified rations containing brewer's yeast. Zhivotnovodstvo 19 no.12:34-36 D '57- (MM 10:12) 1,UkrainakayiL pkadsmiya tiellskokhoz7ayetvannykh nauk i Ins-titut biokhimii All USSR. (Cows-7eeding and feeding stuffs) (Yeast)  BODROV, Vikentiy Alekseyevich; GRIGORIYEV, Bergey flikolayevich; KOVAL', V.D-., retsenzent; ZHADAII G.M retsenzent; KUZIMINA, V.S., red.; KISi ~,e. $ ekhn. red. [Processing of raw whale products on whale factory shipq] Pererabotkakitovogo ayrlia na kitQbazakh. Moskva, Pi- shchepromizdat,1963. 362 p, (MIRA 16;12) (Whalers) (Whale products)  2256 Madan, lolf' Putt Pov'sheniya Produktivnosti Obshchestvannogo Zhivotno~o Dstva. Kiev* 1954o 30a- 206'n- (O-Vo Po Rasprostranordyu Po3-it# I Nauch. Znardy UKR# SSR.) 40o500 EKZ. 45k. Na Ukr, Yaz.- (54-554,63) 636 (47-71)  ROMANENKOp I.N.p prof.; CRAYKOVSKIY, A.F.[Chaikovelkyl., A.F-19 kand. ekon. nauk; MELINIX, OX[Mellnyk, O.K.], at. nauchayy sot:r.; USTINOVSKAYA, L.T.[Ustynovsfka, L.T.), kand. sellkhoz. nautj SERIDKO, A.M., kand. biol. nauk; ZHADAN I.L. kand. sellkhoz. nauk; SUEDENKO, B.M., kand. te na NIY M I. kand. ,ekon. nauk; OBZHELYANSKIY S Ya [Obzhelians'k7i, SiA.J, kand. . Puden 6 ekon. naukj PUDENKO, G.I ( , HI.I.3; LYVT, Yd.B. [Lysyi, N.B.1, red., FOMTSKAY L.A0(Pototsks, L.A.], tekhn. red. (intensified specialization of fam production within a district as qxemplified by Khorol District, Poltava Province.] - Vkralna I"qi nai%kovo-doelidnyi instytUt ekonomiky i organ-4zatsii sills"koh:) hosp6darstva. Vnutriraionna pohlyblena spetsializatsiia oillal- kohospodars'koho'vMbnytstvaj na prykladi Khorollslk6ho .,aionu, Poltavslkoi oblasti. Kyiv, Vyd-vo UASHN, 1962. 222 p. , -4W 16 - 5) 1. Kiev. Ukrains'ka Akademiga pillskohosOpdars' naU. 2. Chien-korrespondent Vses6yu*znoy akademii sellskokhozyaystvan- nykh nauk ~m. V.I.Lenina (for Romanenko). 3. Nachallnik Khorollskago teritoriallnogo proizvodstvennogo kolkhozno- sovkhoznogo upravlwniya, Poltavskaya oblast' (for Pudenko). (Kborol District--Agriculture)    OMELICIIENKO, $.I.; PRIZ, M.N.; SHAMRAYEV, G.M. [Sha-nrayev, II.M.]; ZIIAVAN, M.S. Effect of cross-linking polymers on the characteristics of' poly- glycolmaleate bonding agents for glass plastics. Khim. prom. (Ukr.] .3:30-33 JI-S 164. IM]'RA 17:12) no  'OELICHFNKOP-~S.I. '-MI j,'M.N-~p SINITSA, V.I.1 SHAMRAYKV, G.M.; US7 NGIA, A.M.; Z PANCHENKO, NO,A.-I ZHADAN N S -Pot P~Oductlon of polyglycol maleate resins modified with cycloobntadiene and their properties. Plast.massy no.12tl4-16 163. (MIRI 17:2)    BOKOVI A.S., inzh.; MADAN, N.Ya,., inzh.1 PANKRATOV, G.M., inzh.; USHAKOV Burning of Bashkirian coal in ejector burners with gas drying. Elek. sta. 35 no.6tll-15 Je 164. (NIRA 18:1)  -.77777 BOKOV, A.S., Inzh.; ZHADAN, N.Ya.; inzh.; PANWTOV, G.14.j inzh. Gas dryihg of fuel with high-moisture content using fan mUls in T?-170 boilers. Energetik 12 no.7:9-10 JI 164. (mnu 17:9)  MARTYNOVSKIY, V...professor; MADAN, $.,Aspirant. Examining a freon ejector machine serving as a refrigerating g8nerator. Khol.tekh. 30 no.4:55-58 O-D 153. (mr-ju 7:3) (Refrigeration and refrigerating machinery)  ZYADAIV,S. ------------------------------------------------------------------- IIARTYNOVSKIT, V.,-Drofessor; ZMAN. S., inzhener. Dependence of the coefficient of ejection of a freon ejeation machine on the elements of the diffusor construction. Khol. tekh. 31 no,3:66-67.ii-S 134. (MM 7:9) (Refrigeration and refrigerating machinery)  MARMOVSKIY, V., professor; ZRAU -Jazhener. Use of freou ejecting refrigerating machines in solar installations. Khol.tekh. 31 no.4:56-57 O-D 154. (MLRA 8:1) (Refrigeration and refrigerating machinery) (Solar engines)  44(l) SOV/66-59-2-29/31 AUTHORS: Zhadan, S., Mellt3er, L. TITLE: Adjustment of Capacity and Cold Production of a Compressor (Re U. lirovaniye moshchno.sti i kholodoproizvoditellnosti kcmpressora~ PERIODICAL4. Kholodillnaya,tek .hnika, 19591 Nr-29 PP 76-78 (USSR) ABSTRACT'- The article refersAo 2 foreign proposals one:aims~at-maintaining constant capacity of the compressor at variable-tempi)i-attIr.e':-of.con- densation (William -L. McGt-aih)',' ."Electrical Demand in AC Equipment", "Refrigerating Engineering", 1957, Nr 2). In accordance with -.the other proposal it appears'to be possible to maintain constant-either the cold-producing capacity of the installation, or the poVer which it conoumes.at a variable temperature of evaporation ("Refrigeration Capacity", "Modern,Refrigeration", 1957, Nr 8,*P 342)-..i There are 2 graphs and I schematic diagram. Card lil,  AINH KM~- IUMAUMM. AINMWE~W-11 Onuuk, dotsent -nalyaia of the possibility of the disposal of the compression of gsues. Trudy OTIP i KH? 8 (MIRA, 1:2 -.8) odillnykh maahin Odesokogo tekhnologichask3go havoy i kholodillnoy promyshlennosti. ompreseed air) (Wjjete~lheat)  Tl--nf, to Prl-Ouno C'milln- in a Frnfm E.'ector !An Of, Educ-l-timl Us' :,,ooca.; in--,t lkreni. V. N'. "o-lotriI For Da!erm of of Techrillckril. Sd.vncetO SO: Ynizhn,?,-.,a Lniooisl k1lo. 26, June 1955, Nosco--;  S/202/63/000/001/001/006 E202/E192 A COAUTHORS; Davletov, A., Zhadan, S.Z.1 Taganov, X., and Tsybullskiy, 0. T. Td e t -ea-s-e-ar TITLE: Freon ejector of low.output PERIODICAL: Akademiya nauk Turk6enskoy SSR.-Izvestiya. Seriya fiziko-tekhnichoskikh, khimicheskikh i geologioheakikh nauk. no.1, 1963, 6-14 TEXT: A detailed analysis of the performance of a recently built solar refrigerator working on the ejector principle has been carried out. A special installation was built which permitted measuring three specific coefficients-of ejection u, as functions .of pressurd in front of the nozzle Pp, pressure of the ejected :vapor Po,* and the counter pressure Pk. The experimental ;installatic?n consisted of a gas circuit with a relatively high ~pressure in front of the ejector nozzle generated by a compre;isor 2dpB-6.5 (2Fv-6-5). A buffer capacity was arranged between t1le p the e 4 rder to re-"-ce Isa-lon. n th e cc= resscr.a=d Jector in o ,first series of experiments, in which two characteristics were measured, viz. u u(P.) and u u(Pk),. the manometric fluid !Card 1/3  -7 S/202/63/000/001/001/006 ~Freon ejector of low output E202/E192 used was mercury. Since it was impossible to differentiato botweeni- the various velocity.losses in the ejector due to their complex i character,'the total losses.were expressed by means of an auxiliary,t -coefficient determined from the expression 1 U U V~P u k iThe heat. loss was calculated from the temperature entropy diagram using a specially large scale io improve the accuracy. In the second part of the experiments,.when mercury was replaced by an .,aqueous solution of calcium chloride, in addition to the above relations,-the relation between u and u(P ) was studied. It P 'was found'that after reaching the limiting value u decreetsed. .:On analyzing all the three characteristic relations U = U(p .0 and u = u(P ) -it was noticed that the first orte, 1u = U(Pk)' P tafter achieving sonic conditions, continued to increase but. all. A islower rate; the second remained constant while the third A- decreased. The velocity loss coefficients behaved in a similar Wayal Card 2/3,  S/202/63/00o/001/ool/oo6 freon ejector of low output E202/E192 V, All the experimental data are tabulated and the ejector characteristics for varying pressures and counter-pressuros plotted'. Conclusion. The 1000 kcal/hour cold output solar freon ejector refrigerator with a 1.6.mm critical,cross-section of the nozzle designed for the Physicotechnical Institute AS Turlmien SSR by the Odesskiy tekhnologicheskiy institut pishchevoy i kholo 11 noy.prom I nosti. (Odessa Technological Institute of Food and ys~ en Refrlgerat*ng Industry) is suitable in every respect for atass production.with6ut any further modifications. There are 7 figures and 6 tables. ASSOCIATION: Fiziko-tekhnicheskiy institut AN Turkmenskoy SSR (Physicotechnical institute AS Turkmen.SSR) SUBMITTED: May 3.6, 1962 Card 3/3  ILICHENKO, S.C., otv. red.; CHUKLIN, S.G., zam. otv. red.; RYMMIX0, L.P.2 red.; BADYLIKES, I.S., red.; ALEK.SFIEV, V.P., red.; VEYNBERGI B.S., red.-; GOGOLIN, A.A.,, red.; MELITSER, L.Z., red.; MADAN, S.Z.., red.; NAYI-R, V.A.,, red.; MINKUS, B.A.. red.; OW red.; NIKULISHINA, D.G., red. fTraneactions of the Conference on the Outlook for the Devel- opment and Introduction of Refrigerating Equipment into the National EcononW of the U.S.S.R.] Trudy Konferentsii po por- spekti-vam razvitiia i medreniia'liolodillnoi tolchniki v na- rodnoe khoziaistvo SMt. Moijkva, GostorglzdaL) 1963. 262 p. (MIRA 18:3) 1. Konferentsiya po perspektivam razvitiya i vnedreniya kho- lodillnov tekhniki v na-171-r- 2 Odesskiy tekhnologicheskiy institut pishchevoy i kholod-noy promyshlennosti (for Minkus, Barenboym, Chuklin, Nikullshina, Zhadan). 3. Vsesoyuznyy nauchno-iscledovatellskly instltw. kholodillnoy pronWahlonnosti (for Gogolin, Dadyllkes).  133-6-24/3-3--__ AUTHORS: Babakov, A'A', , Zhadan T .A Danilin, V.A.9 Bakuma, S I*F*j M N khi I 3 d K S Z i X . an na, Ant a, . . . uprya pov, . , . TITLE: An improvement in the technology of production of high- chromium plates!. (Uluohzheniye tekhnologii proizvodstva vysokokhromistogo tolstogo lista). PERIODICAL: "Stall" (Steel), 1957, No'.6, pp~.555-559 (USSR)'. ABSTRACT: Optimum-conditions of rolling and subsequent heat treat- ment of plates from steels X25T, X28 and X28 with nitrogen, =der which the metal mould attain mechanical properties satisfying TY5227-55 andgood quality cutting and straight- ' ejaing properties in cold statel, were investigated,, The fpllowing participated in the woik: Engineers B.Z.Kononov, ' ' ' N 8 or -shkovt A.P.Okenko ("Krasnyy Oktyabro) V.V Turitsyn, P . ' shina (TsNIICbM). It was found that and technician f.i3ha in order to obtain steel plates of required properties slabs should be rolled in a temperature range from 980 to 1000 C - 720 to 800 C with cooling of plates in air. T4ermal treatment: a preliminary annealing at 760-780 C for followed by hardening of each plate (individ- 12-16 hours , ually) in water after heating the metal to the same tem- perat-are (soaking time 3 min per I mm thickness of the ' . Chemical composition of steel from the heats plate) Card 1/2  An improvement in the technology of production of high- chromium plateS.L (Cont'-0) 133-6-24/33 i4vestigated is given.-In Table 1 mechanical properties of plates tested,inllables~2 to ~ and some examples of tnicrostructure obtained under various conditions of processing in Pigs; 2 to 4". Thereare 6-tables and 4.figures. ASSOCIATION; TsNIIChM and'"Krasw Oktyabrl" Works. (TsN11ChM i z avo d 11 Krasw Ok'LYabr I AVAII,AWZ Library of CoIngress Card 2 /2  S/184/60/000/004/301/021 A109/A029 AUTHORS. Babakov, A.A., Candidate of Wchnical Sciences; Zhadan, T.A,, Graduate Engrneer TITLE., Use of Non-Deficient High-Chromium Stainless StElels PERIODICAL: Xhimicheakoye Mashin.ostroyenlye, 1960, No. 4. pp. 2 4 TEXT - The authors discuss the inSreased demand for high-Alloyed i)~i8HqT (IY.hl8N9r) and MMMT (IM18NIZILITI%tainless steels and the necessit~y of oth- 'taining full-value substitutes contaiqing little oyo deficient n1l.,kel. In thl.;5,1/ c6nnoction bigh-chromium )(17T (1211Z)V) X25T (M25T ~ and X28 (&2~)Rerri,:e are of particular interest, The production of 5 - 10 mm sheets of tt,e afore-m-_n- tioned stainless steels presented difficulties, therefore their fatle;ue strength and plasticity were subjected to detailed examination described in this article, As there is a close connection between brittle fracture of thick steel sheets w-d their grain coarseness, the possibility of slowing-down the recrysta-,lization ;V during hot rolling was considered. The mechanical properties of thei3e steels were investigated at varying temperatures. A redatively rapid decrease of stm-_s resistance was noted. Their tensile slk%rongth limit at 9000C was similar t,~_ Card 1/7  S/184/60/000/004/00~ -1 /0 Use of Non-Deficient High-Chromium Stainless Steels AlO9/AO229 of austenitic steel at 1,2000C, whereas contraction and expansion character,.stic_z were higher. As a result of these tests ferrite steel slabs are now roliEd-at 1,0000C which slows down the crystallization process. In spite of lower temper- atures, stress resistance remains unchanged and the rolling-mill engine load does not exceed the permissible limits. Rec6ntly obtained heat proce3sinE, -oil- ditions to Khl7T and Kh25T thick steel sheets are4 preheating 780 - 82oOr-., heating time-3.min/mm and water cooling. By improved methods fine-grained, high- plastic steel sheets were produced,which can be cold cut, drawn and rolled. Cast Kh28 high-chromium steel without titanium has a pronounced macrostructure, Low-temperature rolling and subsequent double thermal processing at 7800C fc:r 10 - 15 h improved its plastic properties though its resilience remained low, -17his type of processing can be applied to other ferritic metals or more than 10 rrum thickness, The microstructure of ferrite steels after rolling and heat proce'ss- ing is shown in Figure 3, A table shows the chemical composition and meck,anical. properties of ferrite chromium steels after thermal processing. Wider asi4mila- tion of these steels depends on improved production methods and on the develop- ment of reliable welding methods. Most fav~Orable welding methods obtained by tests carried out by NI1Kh1MMASh and GIAP are mentioned In Reference 3. High- chromium steels are suited for the production Qf welded chemical equipment opf:r- Card -2/7  /021. 8/184/60/000/0)4/001 Use of,Non-Deficient-High-Chromium Stainless Steels A109/AO29 ating at static loads:in acetic, .1 phosphoric and nitric acids, alkalies, etc. They are already successfully used in various plants; Rustavskiy azot-notukovyy zavod (Rustavi Nitrate Fertilizer Plant), Uralkhimmahh, Alchevskiy koksokh:Lmi- (Alchevsk Coke Chemical :Pi chesXiy zavod Aat~~oskovskiy avtorefrizheratornyy zavod (Moscow Refrigerator Car Plant), Moscow "Ideal" Plant, Bolshevskiy mashino- stroitel'nyy zavod (Bolshevo, Machine Buildinig Plant) and others. It is pointed out that ferrite steels, particularly the Kh17T and Kh25T grades will be widely used in chemical machine building. There are 3 figures, 1 table and 3 Soviet references. Card 3/7  A109/AO29 .Use of Non-Deficient High-Chromium Stainless Steel Figure 3. Microstructure of Steele in the State of Delivery (X 100)t a "Khl IT,':, b M25T; o Kh28 7 V, .4, .S -ql-q-- A- Oitr. 3. M11 KPOCTPYKTYPa MAO 0 COCTOR1111" nM ADKII (X 100)' X1.7T. 6 - X25TI x2A. Card  VW4/60/000/04/001/021 ,Use of.Non-Deficient High-Chromium Stainless Steels A109/AO29 Chemical Composition and Mechanical Porparties of Kh17T, Kh25T and KhP8 Steels in the State of Delivery,After Thermal Treatment Card 5/7 Number Content of Elements In % Steel Grade of Smelting C Mn Si Cr Ti Thickneus of Sheet in iam 6 Khl7T 1835 0.07 0-34 0.56 16.5 0-54 8 10 2890 0.07 -0-50 0.54 16.8 0.50 5 188o. 0.09 0-37 o.65: 16.8 o.50 6 Kh25T 1888 0.08 0-34 0.58 24 1 0.58 1283 0-07 0.50 o.65 24.5 0.65 10 2991 0.08 0.31 0.75 24.1 0-39 10 1887 0.05 0-31 0.64 z7.4 Kh28 16o6 o.09 0-37 o.48 27.o 5 10  Use of Non-Deficient Hieh-Chromium Stainless Steels s/184/60/000/004/001/0,21 A109/029 Mechanical ProDerties ak in kjz/cmie in Magnitude Steel db in ds in transverse longitudinal of the in 2 in % In % Grain Grade kg/m2 kw/mm direction direction 50.5 37 '0 27.0 47.0 8.9 13.1 5 Kh17T 51.0 36.0 22.0 48.0 11.2 13.6 50.5 36.0 28.0 50.0 5.5 14.8 51.5 36.0 29-5 59-5 8.0 5 50.0 33-7 24.4 - 11 5 6 Kh25T 50.5 30.7 25-5 5 61.o - 22.0 9.7 10.8 4 5 50.0 - 28.o 6.o 13-3 4 53.0 - 22.0 6.8 10.1 5 55.0 .26.o. - 0.5 4. 3 Kh28 55.0 - ~30.0 - 0.8 o.6 3 - 4 52.0 - .5 0.6 1 0.7 4 Note2 In Kh2b steel of both smaltings cracks are formed at. cold bendlng to Card 6/7  s/184/6o/ooo/oWool/021 Use of Non-DeficieM High-Chromium Stainless Steels A109/A029 18oOC (until contacting of the sides); in the remaining steels of all smultings cracks were not detected. Card 7/7  (Chromium steel--metallurgr)  89975 S/133/61/000/003/014/014 lok, A054/AO33 AUTHORSt Babakov, A. L.,-Candidate of Technical Sciencesi Zhadanj. To A*9 Engineer TITLE: The effect of austenite-forming elements on the propertAes of X28 (Kh28) grade steel. PERIODICAL: Stall, noo 39 19619 276 279 f TEXT: High-chrome (M5.%) Kh28 grade steel (without titanium) shows a clearly defined, coarse-grained crystal structure in a oa.st con- dition, which results in a reduced ductility, High-chrome and titanium- -containing ferrite type X17T, 'X25T (Kh17T,.Kh25Tj grade stee2sare also brittle in the welding zone (ak is below 1 kgm/cm4), due to the 1. 'ormation of a coarse atructureduring welding, In order to improve the duotil~ty of these steelst tests were carried out with Kh28 type steelg adding small amounts of.austanite-,.!forming elements, WOM, N2) and studying its mecha- nical anUcorrosive properties under conditions simulating the tiimperature and holding times of welding. Smelting was carried out in a 30-Yg high- frequency fu-; -kg ingots were forged into rods and slabs, dace, cleanedp 15 Card 1/7  89975 S/133/61/000/00'5/014/014 The effect of auetenite-forming A054/AO33 the latter,were rolled into sheets 4 mm. thick. Both processes to,)k place at 1500 - 11000C. The sheets were heat-treated at goo0C, water-coolod, then rolled to~2 mm thickness. 'The mechnical properties and tendBncy to 00 intercrystalline corrosion wereteated on specimens heated to 800 - '1000 (welding) temperature, fortwo minutes per 1 mm thicknesag as well as at 1100 - 130000P for I min~per I mm thickness. A change in the mechanioal Ivy properties and structure could only be observed with an increased nilikel- content, when austenite develops at the border of grains, over the entire volume of the metal, increasing its strength and toughness. Upon studying the temperature effect, it was found that steels alloyed with 2 - 6 It nickel do not change in strength and ductility to any great extent, when the temperature'waB raised from 800 to 120000. The highest values for toughness in X28R6.(Kh28N6), X28193A (Kh28N3A) and X28R4 (Kh28N4) type steels were observed after heating to ?00 -*106000. Steels containing max*Y/a nickel had a toughness below I'kgm/ cm irrespective of the heating temperature. U _pon incrasing the cooling rate (in water), the toughness of the Kh28N4 steel increased by about,10 kgm/ cm2. Most.probably during rapid cooling various intermatallic'phases cannot separate from the solid solutiong so that the grain borders remain clean and the 'intercrystalline adheeive forces increase. Increasing the holding time to more than 5 minutes dijI not Card ?/7  89975 S/133 61/000/003/014/014 The affect of austenite--f9rming A054 033 change the toughness,as-, evidently this time is sufficient for the concen- tration of theloolid solution to attain an equilibrium. Repeated heating to high temperaturee with subsequent cooling in air only reduced the tough- ness. The tendency of the steels to intercrystalline corrosion iras tested on sheets after various heat treatments (rOCT - COST 6032-5l)- The maximum resistance against intercrystal3ine corrosion was found in Kh28 grade steel, Jrrespeative of heat treatment, when adding 4 - 6 % nickel. Kh28,)13A nickel steel also showed sufficient resistance against intercrystallLne corrosion and higher toughness. Howevert,when adding 0.23 % N, gaseous blisters form in the ingot. The welding pro-pertie6 of Kh28N4 grade steel of the folIowin g chemical composition:.-Cs 0.11 %; Un: 0.28%; Sit 0.50%; Cr: 28.8 % Nit 4-1%, were tested. After heat treatment at 9000C and water-cooling the following characteristics were recoxdedt e5 kg/sq mm 70.6; 60.,z , kg/ sq mm; J's % 17.6; f s% 34-1 ; ak kgm/eq cm 10-5. Based on the tests it was found advisable to use electrodes made of the X25H13 (Kh25N13) austenite- -ferr�te type or X27H4A(Kh27N4A) and A25HrG (Kh25NGB) ferrite-austenite grade steel for the Kh25T, Kh28AN and Kh28N4 steels, with a special caotin& Figure 6 shows that the toughness of 6 mm thick Kh28N4 steel sheet decreae- Card 3/7  89975 S/133/61/000/003/014/014 The effect of austenite-forming A054/AO33 ed to 4 kgm/cm2 in the Iwelding zone under repeat6d high temperatures, while it increased when moving away from the Beam. Thus, the steel with gmlr 2). 4 % nickel content proved _' to be fairly ductile (ak about 4 - 6 k 'm Therefore the Xh28N-4 steel can be-used as substitute for Kh23N12 and Kh23N18 austenite steels"for products subjected to high temperaturesq with- out considerable mechanical load, and for chemical equipment exposed to aggressive media. There are 6 figures, 2 tables and 2 Soviet references. ASSOCIATION: TsN!IChM Card 41.'?  89975 -4 "he effect of au3tenite-forming ... A054/AO33 v 8 Figure 1: Effect of nickel-content, on O echa-, the m nical properties of Kh28:steel. . S , 2 Card 5/7 .5 Nickel content, MR ~WRFRMMR..  89975 S11331611000100310141014 The ef f ec t of austenite- forming ... ". 0 5 VAO 3 3 , . - 7 20 - 1 2. (J. lkm 1 3: Ll ~ _a - -U Card 6/7,   MESECHERINOVA, O.N., kand.tekhn.uaut-, TRIIFOYOVA, T.N., inzh.; TCHPAROVA, G.A., kand,tekhn.nauk; SMINOT, Ye.V9'0 lnzh,; BAMMOV, A.A., kand.tekhn,nank; KMWA, To.N-, inzh ZHADLW T A inzli,; TALOV, N.P,,, inxh,; TSYPKrNA, Te.D., i:~u-dtei~n.nauk; MION19, V.M.,. Inzh9;-DAV7'DOVA, L.N., inzh.-, PRIDANTSIV, M,V,, Prof..) doktor tekhn,,'nauk# red,; LIMITS,,,G,L ' kand,tekhu.nauk, rat,* MUM,. U.N., rea.izd-vvai NVM$ftWA, T.V.. takhn.red. [steel6.with low nickdf doiltent; a handbook] Stali a ponfizhen- nym godershaniam nikela; spravochnik. Pod red. H.V.Priduntsm i G.L.Idvehitea. Koakva, Gos.nauchno-takhn.izd-vo lit-ri-po chernoi i tavetuoi met&llurgii, 1961. 200 p. (mi:RA 14: L2 1. Direktor instituta,kachestvenu7th staley TSentrallnogo nauchno-lealedovateliskogo Instituta chernoy metallurgii Im. IOP.Bardina (for Pridautsav). (Nickell steel)     00/002/10'11/1071 ACCESSION NRs AR4027946 S/0137/64/0 SOURCE: RZh. Xotallurgiya,,Aba~. 21419 AUTHORt Babakov,:A, A. ;:1 Gu~ yayqv, -A,. P. Zhadan, To A.; Tufanov, D. G. TITLE: Effoot.of carbon on the properties of Khl6Nl6U3B stainless steel CITED.SOURCE: Sbe tr. Tsentr* no-i., in-t.ohernoy qotallurgiia vy*ps 35, .1963# 63-66 TOPIC TAGSt -carbon, stainleos~steal corrosion, Interorystalline corrosion 3RXISLATION: Astudy was made. or-tho effect of Coontent (0*04-Oo2%) 4t tl~ constant.: Nb:C (>, 10)-'on the meohanioalproperties and tendonoy toward interorystalline corrosion (TIC) of Khl6Nl5',43B steel. In the hardened state, an inerea's,6 in the 0 content causes a rise in d and 6 and a drop in and ak at 23,6x-d 3500. -This is due to an increase I~n the ;Iount of carbides present in the stsel (which was quenched from 10500), Soaking at 6000 leads to the,procipitation -of carbides .along the grain-bSundaries and to a drop in ak. The rate of deoros.soAn a is the :same for all the steels studied as the duration of soaking increases. Hoeting at !5500 caused TI$.iA all the ateels, despite the fact that the content ot Nt was 3.0 'times greater than that of 0. At a,G content of 0,04 to 0,07%, TIC ap;?oarsd after $j Cc~ id ;1/2 T  .iAR4027946 IACCESSION NRs ., soaking 1500 hr, Vh9reas it did so after 500 hr.in steel with 0,12 to 0*24 C.. For' the maximmi possWe prevention of 310, the 0 oonte4t should be lowered to OoO2 . -0&3% I a-ndd tho steel should be~ stabilizsd iit htitaniun or Alb. No Kalinkixa~ , X , AT ACQs, 19Mar64 r SUB CODE: UL EmLi 00 1777. 2/-Z  iACCESSION MR; AT5016060 ,-~ ~(,!- -vi,.qrer - t I.-, z . z 7 . * :; -I J.. , in , t I . , ., ~    a',.' ealstardtiv ke', stairao:;s stanl~,. -~~nr. om'Lux-ni C .o 039  _IjF(tr J0 ACC NRi AT6026547 SOURCE CODE: UR/2776/66/01)0/046/0037/0040 ~AUTHOR: Gulyayev, A. Zhadan, T. A.; Malltseva, V. S. ORG: none ITITLE; The effect of titanium the phase.composition of ferritic-atsteaitic stain- less steels K SOURCE: 140scow.'Tsentrallnvv naucbno-issiedovatellskiy-institut cherToy !netallurgii. ~bornik trudov, no. 46, 1966. Spetsiallnyye stali i splavy (Special steelaand al- loys), 37-40 TOPIC TAGS: stainless steel,.titanium, ferrite.. austenite, carbide pbase, phase com- position, impact strength, hardness, saturation magnetization, quenching, tempering, temperature dependence / OKhl8G8N2T stainless steel, OKhlBGBN2 steel ABSTRACT- 4The effect of 0.4% Ti onthe phase composition and mechanical properties of OKh.'LSGM~~,.stainless steel was studied. Steel samples were quenched from 12000C and',. aged,to temperatures up to 9000C. Impact strength, hardness and saturation magnetizi!,-, tion were given as functions of tempering temperature. The addition of titanium did!,, not change these properties. In the 600-7000C range a sharp drop in impai T an increase in hardness and a lowering of saturation magnetization occurred.' Electro~ 7 lytic etching and x-ray analysis showed that TiC formed in the titanium containing Card 1/2  L -04187-67 ACC NR: AT6026547 and a-phase formed after prolonged tem-.R'. 1, steel. In the steel without titanium, Me23C6 ired aG pering. The TiC, Me23C6 and a-phase compositions of the two steels were compa . I "P ter different heat treatments The presence of titanium caused a sharp decrease in -,P. ,Me23C6, but increased the amount of a-phase in some cases. Titanium tied up the cari;41,- bon necessary to form He23C6 and left a greater amount of chromiun in solid solution, as required for a-phase formation. Changes in the quantities of TiC arzd M(12.3C6 Were Igiven as functions of time. The precipitation of TiC proceeded faster than that of Me2.3(,6. lFor 0Khl8G8N2 stqel with titanium the rate of carbide precipitation became M___ 1y inc:mased in consf-an-f after ou=t Ms, whereas the amount of Me23C6 continuous the steel without titanium. Orig. art. has: 2 figures, 2 tables. SUB CODE: 1l/ SUBM DATE: none/ ORIG REF: 002  j_g4188-67 EkT W P (A/1.4 ACC NR.- AT6026546 SOURCE CODE: LIR/2776/66/01)0/046/0030/0036,. :AUTHOR: Zhadan, T. A. 'ORG: none 45~LA ~TITLE: Industrial testing of EQ--3-4teel and its structural characteristics herio metallurg ,SOURCE: Moscow. Tsentrallnyy nauchno-issiedovatellskiy institutcheinio t jSbornik trudov, no. 46, 1966. Spetsiallnyye stali i splavy (Special steels and alloys 30-36 duc. 4; ITOPIC TAGS: stainless steel, chromium, manganese, hot rolling,-fnL-chan-iuk-!-iD~r(>p4pty-,) phase ccmposition, microprobe analysis, microhardness, heat treatment, metallograp'nic examination / OKhl8G8M2T steel 1ABSTRACT: Industrial testing of the two-phase OKhlBGBN2T steel was done at the Kra Oktyabrl plant. A trial heat of KO-3 (industrial designation) had the folloZng compo-7. .izition: 0.071 C 18.3% Cr, 8.0% Mn 2.5% Ni and 0.31% Ti. Strength, ductility and im pact resistance were given for different initial hot Y,Y)lling temperaturo ranges of 11170-1180, 1140-1170 and 1120-11300C. For all tempera,;ure ranges the ro(-n temperatun. 1properties were the same: :cr = 80 1~g/mm2, -oo.2 = 38-42 kg/mm2, 6 = 30-35% and impact i U I 'resistance 22-28 kg-m/cm2. In high temperature tests the ductility (6 increased i Card 1/2  __L 04188--67 7 ------ 7~ ACC NR: AT6026546 steadily,with temperature whilea U decreased accordingly. The a/y pbase ratio increas- ed as a function of temp ture; in the 800 to 13000C range the Iamount of a-phase in- I creased from 45 to 85% icro robe measurements of Cr, Mn and Hi contents of the two I ti cr ok ,ya f: t phases showed insigni 1 ant changes as functions of a- and y-phase contents in ferrite containing 22% Cr, 8% Mn and 1% Ni. The microhardness of ferrite and austenite also remained constant. Mechanical property changes were given as functions of tempering temperature after quenching from 1000 and 12000C, for aging times of I and 100 hrs. A sharp drop in ductility occurred after tempering at 7000C for 100 hrs. The most sen- Isitive indicators of the structural changes in the 600-7000C range were impact resist- lance, hardness and saturation magnetization, Accompanying the drop in ductility at 1600-7000C were a sharp drop in impact resistance, increase in hardnesa and a lowering lof saturation magnetization. A metallographic examination and x-ray analysis showed Lttleness)'Idas associated with a-phase formation.. The duct:,le state was re- 1that the bRi istored by retempering above 9000C. The tendency of KO-3 steel toward cold brittleness Iwas measured for different heat treatments. Ductility was given as a function of test Itemperature ranging from 2000C down to -2000C. The most ductile stato was the as- I-quenched condition; however samples quenched from 10000C were more ductile than I KI ithose quenched from 12000C.I'Aging cut down the ductility1d raised the transition temperature--the most embrittling treatment being a quench from 120000 and tempering at 7000C for 100 hrs. Orig. art. has: 10 figures, 1 table. ISUB CODE: 11/1 SUBM DATE: none/ ORIG REF: 003 Cord 2/2  MADAN, V-, kand.telchn-nauk - ----------- SLmplifled method for the design of evaporative oondeneerit. lbol. telch. 37 no.5129-33 S-0 160, (min 1:)..Io) 1. Odesekly tekhnologicheskly institut pishcbevoy i kholodillnoy promyshlennosti. (Condensers (Vapors and gages))  SM4EV. V..inzh.-,,ZHADAN,.V., kand.tekhn.nauk Automatic tester of the airtightness of filled food cans. Mias.ind-SSSR 30 no.6:16-17 '59- (HI:U- 13:4) (Canning induetry-Equipment and supplies)   ZHADIN, V.I. Effect of pollution on changes in the bottom fauna of-the,O:cet River during the last 35 years. Vop. ekol. 5:61-62 162. (MIRA 16:6) 1. Zoologicheskiy institut AN SSSR, Leningrad. (Oka River--Freshwater fauna) (Oka River-Water-Pollution)  ZRADIN, V.I. Forecasting afid ret~i realization of the forecasts of them hydrobiological oon'tdit one in Kuybvshev Reservoir,',- Zool. zhur. 42 no.5t641-651 1610' (MIRA 160) 1. Zoologioal Institute, AoademV of Soleness of the U.S.S.R., Leningrad. (Kuybyshev Re~ervoir-Hydrdl#olog7)  ZHADAN) VIM., starshiy nauchnyy sotrudnik Study of heat exchange in a mine working behind a focus of fire on an aerothermodynamic model. Trudy Sem.po gor.teplotekh.. no-4:39-41 1,62. (IMA 15:8) 1. TSentralfnaya nailchno-issledovatellskaya laboratoriya pe gornospasatellnomu delu. (Mine fires) (Heat--Transmission)  ZjjqANj_j.�.Lj, kand. tekhn. nau1c; KLYCHNIKOVA, L.V., Inzh.; BCPIT,:;OV;'%,, L.A., Inzh. Development of the parameters of Industrial air conditi.oning. Khol. tekh. I tekh, no.1:111-115 165. (MIRA 18:9)  90~",Ww Btu N&W jgg~ 2w -- L 430813-65 EMWI SIODOO/64/000/0001'0197/0201 ACCESSION 11R: ATS007928 AUTHOR: , Vlidtnirs V. Cqk~g_n _kt; KochkqM Mar, Ye. G.; t~ikov, V. V.; HgV-hsv~L -1-F- I ,v, IL. tov, G. K.; Ko ~jr Honor.= 11. A., Fopkovich A. V.; Stolov... A,,.H.;~Strolltsov,-Ms2g.t TLULVE&J, kil A . 'I HIP Kuzl.mjn~AA.A.; Ku%1m1nt_Yj,,.r. ST ShL Uvarov V. A. noy ~vm. TME: 60-70 Gov KPEro2jtaon~ ~chro ~ro q, I 'frudy. SOURCE: International Con hynergy..Acc lerators. Dubna, 1933. Moscow; A-t-oia-zdat, j�614-,i97-201 TOPIC TAGS, high enorgy accelerator. synchrotron JABSTRAC7* A 60-70 Gov proton synchrotron with strong focusing in being consimucted not for from Serpukhov, an has been reported earlier (e.g. "'Research rtistitute for ' " L L14 -P l Pro I rnaticnal Conf h L al Z i L d di of th t El t t . u cce e e i ro c pmen en ngra n n a n e ec ys , , 9 q !once on High Energy Accoloratori and Instruwntati6n, (CEM, 1959), p. 373). The present roport doucribes parameter changes and improvements in preaLsion stritatural characteristics of' the accolamtor. and the present state of constructiM in aid-' 1963., The parameters of'tho magnot are presented in a tablo. A small thangs Ln the original plana permitted an increase In the length of a, part of the froo ~ Card., 1/4  L 43088-65 1ACCESSION TIR: ATS007918 sections, some of which are utilized for input and exit of beams., The ijuper-period Idesign is described. The lengthened sections were obtained as a conseqlence of shortening the focusing and 'dofocusing blocks by 112 cm. The focusing pmp:rties of the magnetic channel were diminished consequently, but very little; aua the limiting. energy was lowered by 2-3 Gov. The construction of the magnet is, dt scribe& Each of the magnetic blocks is divided lengthwise into 5 sub-blocks which are enveloped by the coa=n winding. These sub-blocka consist of laminar two-mulimeter silicon steel. These steel sheets were star.Ted out without subsequent mechanical working, and were subjected to sorting and intermixing in order to smooth Out their magnetic characteristics. The sub-blocks are constricted by lateral welded plates without adhesion. Provision was made for windinga-en the poles in order to correct for pole nonlincari-ty and for variationz in the drop reading. ~ These w1ndin3a make it possible to introduce artificial quadratic (square) nonlInearity the.t changes the dopondence of the frequency of -,ranaverso oscillations during a pulse. In order to comact for straying of tho residual field, provision has beer. madi for with the main winding. The cub-blocks tiust undergo winding,, on the yoke In series calibration'ori'a magnet stand In ordor -to make* coiracting syetema more precLse 'and to d4toroine the most convenient diapoaition-of the suli-~blocks along t1a ring. The winding of the electr*magnot: is made of aluminum busbare with holiaw c(mos for. cooll~g water. /"The lin'gth* of the busbar in 'no sale6ted that there vate(d. be no C-14- 2111  WROA is L 43088-65 ACCESSION NR: ATS007919 w ;welded joints inside the coils. The winding consists of 4 sections, t1Y* of hich are disposed on the upper pole and two on the lower. The most important chmater- istics of the electromagnet and power supply system are described in a table. Also idescribed are the vacuum chamber and accelerating field (obtained by 54 paired resonators with ferrite rinGs, which operate at the 30-th harmonic of-revolution andgive accelerating potential of 350 kilovolts). The ring t unnal and tht- general arrangement of the accelerator aria shown In figures and described. The buildLyig for.the injector and portions of the ring tunnel fr*m the injector to the oxperl-. montal'room have been complatod in the -main and are ready for installation of equipment. This room, in the form of a aingla-ainle building without. intemal. nupports, permits one to work on beams brought into the inner and outtr sid6s. A 90-mater arch.6overs this room, whose overall length is 150 motors.. Provii1ong have been made for a second experimental room at the southwest part 01! the rip&.., Orig. has 4 figures, 2.tables. ASSOCIATION; Institute tooratichaskoy i eksperimentallnoy fIzLkL GVAN SSER (Xnstituto 6f Theoretical and Exp LimcLntal. Phygical_QW SRJ~L. (2) -laucbao-. iasledovatallskly lnatitut.olaktrofizichaskoy.apparatury imeni D. V.. fefr*mova CM SSSR (Scientific Research Institute of Eloctroph~sical AMratusp GY1&~R L- LCanL-3 4 ...............  L 43088-65 ACCESSION MR; ATS007918 (3) Radiotekhnichookiy inatLtuto*A:R SSSR 0#41SLILnstinearing Institute Ac4d*Wa Sciancoo SGSR). (4) Gosuda mtvonnyy proyddnyy inotLtut OW SSSR Out& n"~ ic InstRuio, GK 666B)t SUBHITTEDI 26Hay64 EXCLI 00 SUB OW a, Kpi: 110 REF GOVr 002 OTMI "001 4/4  4-Hidi-tai, V. MADAN, V. T, - "Inve .3tielttion of the deformation of jiotala in flange tiaugou". Moscow, 1955, Min lfigher.Educ.?Ition USSR. Moscow Order of Labor led 13anner Inat of Steel imeni, I. V. Stalin (Dissertation for tho Deeroe of Gardidate of Technical Sciences). SO: Knizhnma Letopis' No. 46, 12 November 1955. Moscow  RE Z1142) n AJ L/ 7 137-58-4-7068 Translation from: Referativny~i'zhurnal, Metallurgiya, 1958, Ni- 4, p 110 (USSR) AUT14ORS: Polukhin, P; 1. ,Zhadan,, V, T. TITLE: An Investigation of the Deformation of Metal in Flanging Passes (Issledovaniye deformatsii metalla vo flantsevykh kalibrakh) PERIODICA L: Sb. Mosk. in-t stali, 1957, Vol 36, pp 196-22*7 ABSTRACT: An investigation of the filling of slitting grooved rolls in the rolling of flanged shapes in accordance with changes in the angle of the slitting collar, the degree of reduction, the spread (S), and the condition of the surface of the pass, has been made. The ef- fect of these factors on the power ccnsumption and the pressure' of the metal or. the rolls is clarified. The invest.igation was con- f a beam 100 mm high on a 360 mm mill ducted in the rolling (R) o - in four slitting passes, in which the collar angles (CA) were 80, 70, 60 and 45". R came to 43-59 percent reduction depending on the height of the initial billet. The effect of S was investigated in specimens,of various initial width. The pressure of the metal on the rolls was measured by hydraulic capsules with carbon elements. The area of the horizontal projection of the contact 3urface was Card 1/2 determined by graphic and analytic methods. The t,~!mperature  An Investigation of the Deformation of Metal in Flanging Passes at the start of R was 12000C. It follows from the results obtained that CA is increased from 45 to 700, the height of the open and closed flanpes (F) dimin- ishes. As CA increases, reduction in cross section with height undergoes a smaller increase than does the mean reduction factor. In R without Sas rises fr9m:45 to 700,:.there is an increasing asymmetry of defoxmation, which -is a consequence of, the more intensive reduction in the height of the closed F. When R is accompanied by S, this relationship is less significant, As relative reduction on the collar increases from 43 to 59 percent, the height of open and closed F increases, and the zone of enforced S of the midsection of the cross section of the strip also increases, resulting in an increase in lateral pressure and friction. In R in the absence of S conditions are more favorable for open F and less favorable for closed F. Variation in S changes the force require- ment, and this makes for different degrees of filling rf:the open and closed F. As S increases, the asymmetry of deformation of the metal diminishes, As CA increases, unit pressure diminishes, but to an insignificant degree, while unit power consumption increases considerably. When reduction.on the collar is increased to 43-56 percent, unit pressure increases by 8-10~5 kg/mm2, and unit power consumption from 0.7. to 1.8 kwh/t. An increase in S restzlts in a decreasein unitpressure. Yu.F. Card 2/2 1. Rolling mills 2. Metals--Delformation--Test methods 3. Metals--Deformation ~--Test results  137-1958-3-5030 Trahslations from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 3, p 82 (USSR) iAUTHORS: Polukhin, P. L, Zhadan, V. T. TITLE: An Investigation of the Cross-sectional Distribution of the Deform- ation of Metal in a Strip Rolled in a Sectional Caliber (Issledovaniye rd!ifredeleniya deformatsii metalla po secheniyu polosy, prokatamay v.razreznom kalibre) PERIODICAL: Sb. Mosk. in-t stali, 1957, 1 Vol 36, pp 228-245 ABSTRACT, Investigations were carried out in order to establish how the cr05*S -sectional distribution of the deformation (D) in a metal .strip rolled in a sectional caliber is affected by the crest (C) angle and by the extent of the reduction and expansion (E), as well as to determine the consumption of energy and establish the pressures exerted by the metal against the rolls. The distribution of D was determined from changes in the thread pitch of screws Which were screwed into the metal. The value of the crest angle varied between 800 and 450. Rolling operations were performed on a 360 rolling mill, at a temperature of 12000. Templets cut from the*rolled strips were ground, polished and etched in a Card 1/2 solution*of HNO 3' The data obtained describe the depthwise  137-1958-3-5030 An Investigation of the Cross-sectional Distribution of the Deformation (cont. distribution of D in regions of low and of high degree of reduction. Regions adjacent to the crest experience the grcatest D. The minimum ~ D is observed approximately at the midpoint of the height of the neck. Maximal transverse D is observed in regions adjacent to the C, while minimum D is found in the central portion of the neck. Measurements of the transverse D serve to deter- mine the boundaries of regions of constrained E and constrained constriction, as well as the D pattern and the pattern of the inter- nal stress conditions; the same measurements also make it pos- sible to trace the flow of metal in the calibers. The central region of the templet constitutes an area of constrained E, whereas constrained constriction in the transverse and vertical directions is observed on the edges. From the data of the transverse, longi- tudinal, and vertical distribution of D it may be deduced that the D of metal, forced through a sectional caliber, is symmetrical with respect to the vertical axis and unsymmetrical with respect to the horizontal axis. Yu. F. Card 2/Z  137-58-4-6993 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, P' 98 (USSR) AUTHORS: Polukhin, P. 1. Zhadan, V.%T. TITLE: An Investigation of Forward Slip and Spsed Factors in Roll- forming in a Sectional Pass (Issledovaniye operezheniya i sko- rostnykh usloviy prokatki v razreznom kalibre) PERIODICAL: Sb. Mosk. in-t stali, 1957, Vol 36, pp 246-258 ABSTRACT: Experiments in rolling samples of 95.5x75 mm cross section of Nr 20 grade steel at