SCIENTIFIC ABSTRACT PETROPAVLOVSKAYA, R.V. - PETROPAVLOVSKIY, G.A.

14 - Js -'r, r st '1~1.'and either 3) on o U f tnrv 'A .11=n lu C6 an(I for  nTROPAVIOVSKAYA, R.V. Annoolfttive systems oitriwturally loomornhio to groups. Psirt 3. (with summry In Bngllah'. Vast. MU no.19:5-19 157. (MIRA 11-1) (Groups, Theory of)  IIETROPAVLOVSKAYA, P.". (Leningred) --- . .... , I A class o, groups deterained by the structure of their s-jI- C semigroups. Yat. sbor. 66 no.2:265-271 F M. (PIRA 1P;4  PATROPAVLOVSKIY. V.G.; OTOCHRVA, N.A., redektor izdatelletva; ZH(EOV. D.K.. takhnicheekly iedaktor [Reference manual for taking stock of fixed capital in communal housing; a collection of decrees, instructions, orders and directives on' inventory taking (in force July 1, 1956)] Spravochnik po inventari2a- tali oanovnykh fondov zhUishchno-kommunallnogo khozialetva; abornik vathnsiohikh postanovlan!Li. instruirtail. prikazov t rasporiazhenil po inventarizateil (po soatektantlu na 1 iiulia 1956 g.). Izd. 2-09, tepr. t dop. Moskva. Izd-vo Hinisterstva kommunallnogo khosialetva RSFSH, 1956. 359 P. (URA 9-.12) (Housing) (Municipal ownership)  !, 'F> /t .. /P~< I ~ , 4-,/~ ~ ,,~ II- .. KEDVIDSY, K.P.(Kharlkov): FETROPOLISKAYA, V.M.(Xharlkov). Relation betw-en the readtivity of coal and the surface size of coal grains. Izv.AN SSSR.I)td.tekh.nauk no.12:129-133 D '56. (MLRA 10:1) (Coal-Analygis) (Coobnation)  MEN= 14 Af~ S.S. Ak.,d JW14 S R., A,F 3".-The audy of cokiog Was bated tft,of. talved - S atoms, 00 0,---rib-f b Wi!thm o 'g ' ,, &T - Wakk 5-S. MUk 1933 145) and hall t~Mrdtttd IOUD in 4ewl 2 fj)cUvW of In the diffc~*nt t1j)" C4 cot"'Ps. in wdplt UNWS In CEW., The amlil, 61 piii0c ~xlld C% S, 'j;Mj" JU the with the vc!attle duvtvaotf "tan be estd, vvith tile iWITAtY 4x~.S $LIM. depetidl on thli Coal luttruilfollbluts stagle Jndd'UH -1, on, :ww the highrr the nictsmorplib-zo rtp4c. I e -tivfty of the. ~n. S ---ptj,.rAn bc riplAincl by thL pbutic -rUte-daring the )f (he xrol'12tic rings -'-,cWs duting.higlicr wcta~norNsra stfigm. As a rmlli In Lbg unble httef"cyclic r1nri (4 tht so= e4 the S atumn i 'thAnes Change over h1t.0,11le. RM AAhk Alicyclif Air- I" vith the iuual boldt. iwbIch the 6 Atlittia fire Mn1j"ted to C M lowen the CS energy, Awl InervaLt-s the protu"1011 of 'uI.Sevolml with Vie volitile wiltigpiolucti. Afornivia i Is propracd for the propcution of St the cckc. u d repre---ents brtler the m t3 obtained with ~'l J)Utlets C", tMx-d 3o tile. tinafytko 4etil. of pyrlt~' and Oct., 1, lp ~n the c1livre, Art oat lbe nature td tht :Levi- S-C L-OMS in oA� at 11111,Rnt r4 Mrltu- .4  I I/- , .// -1 ", T-,-,,~ -:-, f , XXDV", I.P.;FWROPMISXATA. T.N. - ..-. ;; , V,~-; I .. : Behavior of pyrite and orgamic sulfur In coal coking processes. Isy.All SSSR.Otd.tekh.sauk ze,11134-139 Ag. '55. (min 94) (Coke) (Sulfur compswAs)  MVRM, X.P.; MROPOLIBUTA V F.; MKITINA, K.A. "-A Desulfurization of coals by atomic hydrogen. Koko i khis. no.2: 5-9 159. (MIRA 12:3) .=r-X.Piarfkovsk:iy nauchno-isaledoTatel'skiy uglekhimicheakiy institut. (Coal-4arbonization) (Sulfur) (Hydrogen)  I!Pi/'- ~/ . [ -I FS?RDPAVLOVSKIY, Ye. 1. __ - , -,. Mikolan Canning Combine at Krymskata was built durir4g the first five-year plan. Kona. I ov. prom. 12 no.10:37-39 0 057. (MIRA llil) 1. Krasnodarekly sovat narodnogo khozyaystva. (Kryinkala--Cannii~gg and preserviiW)  -oble _!etilo-jolo ~7"7' "OtOrY- SCientific A tituticns Ind "on-ferences. Instructior -~uestiorjs ~,cncerni~ng Bibliography and Scien- t'fic I)Ocu:~-,en-~ritiojj Abs qe" Zhur-7:11iMiyat NO 3, lgr,8, 6839 Authcr Y r)7)avl ov.ski Tns - y T L '1'- 1 e -1, nned Pood Combine at Kr~rmskay, of First , I Vil- Five-Year Plan I 0-~roohciesush. Drom-st, :;c A b_- t 7,-1 c - A c 0 ':-'e drUVE'lopment (since 10,30). Card I/-j pEMpA';LOV7AYA V. 1". Don River - Sturgeons Nutrition of young sturgeon in the Don during the down-strl~nm migraticn. Tru.y ~'idrcbi-l. obshch. 3, 1951. 9. Monthly List of Russian Accessions, Library of Congress. Noyember195& Unclassified.  PMOPAVLOVSKAYAp V. N. Sturgeons - Don River Nutrition of young sturgeon in the Don durin:,, the down-stream miiration. Trudy Gidrobiol. . obshch. 3, 1951. 9. Monthly List of Russian Accession3s Library of Congress, Unvermber -195~2 Unclassified.  FETROPAVLOVSKAYA, Z.N., kand. teklin. nauk; BOGOMLINAYA, R.B., inzh. Low-alloy structural steel for large power systems. Teplr^-nergatika 12 no.4258-63 Ap 065. (MIRA 180) 1. TSentralfn~y nauchno-issl.edovateliskiy institut tekhnologii i mashinostroyeniya.  Tstuffin, V. 7, uJ H, Mot'U'Df 65 1. q f~at:~n Im a sp"Id epplicrica 0.1 ing q! veam T Ali"D Rev. it 4 onled tb.; 'n-i ra in it t, I uf i Fra~~t tr!q It4 z,-e. I S fur a ;A.T Ch-f 1;.4k S 1k,; t,lf~ v iaf u ~~t- vE hl he 1. a-'Llrej teash~a ni Opt Spec-l-en 13 '01T the aux Is effecird V~J. &.e ~il P05sill!v to ch.-Ain Oij 1 0- %.A.L. ) / the Pcrlr~n ritil .1 r:f z 'I'ht - ~ . ,, wilj the ;C!zn im-,vrc i.A h! 0 test  7)-7 A7. Tht ttIlAxzzi-:~ r, f I ::r- i it i - z!e by r*eAO--J ocot--wl- rvin vi lhe A d ql~r -a is r *.GrmaLL .-I 14 0,002 Lim, Ot~ 2,;Oon, 6-f the uptclmcz in (10  VOINVA, T.I., kandidat tekhnicheekikh nauk; TI-3YTLIN, V.Z., kandidat tekhnicheek1kh nauk; FMCRAVIANSIAU, Z.I., kan4tdat tekhnieheekikh nauk. Method for tensile relaxation testing in a special apparatus. [Trudy] TSNIITPASH 71:70-80 '55. (MLR& 9..8) (Creep of metals) (Testing machines)  , MPAVWVSKATA -PF Z.N., kandidat takhnichookikh nauk; TSIMIS, V.Z.. ni,h,skikh ,.k. Investigating the properties of R1723 (T*Zh-4) steel. Notalloyed. i obr. met. no.12:17-27 D 156. (KLRA 10:2) 1. Mentrallmyy nauchno-looledovatellakly Institut tyashologo masbinostroyaniya. (Steel--Testing)  FE-TIROPA-JIC,-V-7K.A:fA, Z. I'!. ODING, LA - MOROPAVIMBUYA. Z.V., kandidat tokhnichookikh nauk. Wfect of heat treatment on relaxation resistance of aus*enits. [Trudy] TSN11THaSH no.79:61-80 '57. (XLRA 10:-6) 1. Chlon-korrespondent Almdemil nauk SSSR (for 6ding). (Steel-Host treatment) (Steel-Testing)  MIRKIN, I.L.1 HZECT)VLOVSKOIA, "".N. Effect of tbe coxipcsl4-.:r;n or ferr!te Qn Lhe re:pyfit.c.% rsaistance of chromlim. 9'~eel- ye'~6110vt-e- 1 term, ctr, '"t- no.8:1-5 Ag '64- (P.:RA l7i:o; 1. TSentralinyy nauc~unc-lfisledovatellsilY inntitut tftkhnolc.r~'. I nashinostroyenlya.  Y :RM N 1 1 . ~,. . . "'. r'. -, , I j';")) ~ I ~W, I i.AY A I '. . F;. I 1.4-w-alloy heat reflst,int !itoel. fnr electric machinery manufactz;re. fletallov"i. I terr. 7,b-. met. no.11;4-) N 165, (MMA 18t!2) lo TSontrRl'n:;y nmuchrr-Irsledc-rntsillskly i-vistitut toAhnologil 1 mashin3stroypnine.  31 037-66 SiT (m)/tIA (d)/t-IP W/FeT (013a? (b) Mrd/JD ACC NX- AP5027701 t;OURCS COM UR/0129/65/000/011/0004/0009 AUTHM: Hirkin, 1. Trusov, L. P.* Petr vlovskaya, ORO: _TGN117MSh TIM: Low-alloy best-resistant steela for power generating machinery SOURCE: Metallovedeniye i tervicheakaya obrabotka metallov, no. 11, 1965, 4-9 TOPIC TAGS: power plant component, low alloy steel, heat resistant steel, peorlitic steel ABSTRACT: Considering the exceptionally long service life of power generating equipment (at least 10-15 years), its high operating parameters (as much as 580*C and 255abm) and the trend toward building increasingly larger boiler-turbine utt.*S, the problem of improving the quality and durability of the components and elements of this equipment Is of special importance. Currently the weight of individually cast turbine elements reaches 22-23 tons. and the wall thickness of steam lines reaches as much as 65-i2 mm while their diameter may even exceed 400 vn. Under these con- ditions the assurance of uniform structure and properties is a particularly difficult task during various operations Involved to the hoL and cold working of power-sachineri elements: tube bending, welding. welding-up of casting defects, and subsequent hea t treatment. Proper hatching of the melt to also essential, since even minor deviation& 1/2 UDC: 669.14.018  __rr , -4 All 4MMSION As 4PW822 S/C096/65/0b0/004/LK)5Q/0%3 --AM03 v-1, atra vskayaj,2 Km- -(Gandidate of toobnIcal-boiancen) Cang reinforcing A TITIZ La aal.f or lwga capacity power planto C SOUR33m ToOmergetika# no. 4. 1~65, .0-43 T01,13E.0 t steel all parlitic steel, �teel pmperty/ 25M-WBR steel, D0441 -steel teel which mq be tmed &s (E!g4) of perlitie s ABSTRW ~A now type (L5~J2PR geteel at-teVeratures-up 5&)G vas deivelopa4 as-reported by T. ore" -Solkmand-B.- H. Petropaylovskaya (Sborrdt TsHMMASh, No. 105p 1962). The properlUes of this steel were-investigated on 1000-2000 mm long and 100, 1:10j, ud 220 m.diamster specimns made of two alightly different alloyv having the rQ3.1VW.W compositions respectively (% velght)s 0-0,20 and 0#32; Si - C)."P Ma 0*1a, 0 121 -P 0,641 Or - 1,30., 1.32; Ho - 0.97j-'Q'0j V - 1"o 1.11 Ub 7 09n# '0*12; B-0,00460.0045i 'Ni-0.12#0.09; 5!.~-'0.02000.;;2j P.O* 02).j --0*017# The mechanical properties including yield strit4j, tensile stresop elorme L4   ACUNIZION NM AP404-4131 AUTHOR.- Mirktn, I.L., Petropavlovi-kava effectof-fdr6te-emposition- ft the relaxation resistance. of -chromban swo, BOURMo. MeWovededys t termloheikaya obraboft 3netauov, nai of* 1964, 1-3, luld _1~sertfdcingp. 24 TOPIC, TA08i_ st6ol',- chromium steel, ferrftei,~ ferrite composition, relaxation rea stresi: rel=a-tionj figggess, stggesq a IT: relwmuon'was s' -Mo-V steel it 625-565C, ~ABSTJ A tadled,iwsamplus of Cr fti4wn+1^v% Irn ~!()r)0_1100C at 7000, In an attemptto establish a L in and tem1wring r el a orritestractur(y,-c6ntalned0~04-0.(-6%C, 1.14-10.03%Cr, O.-58-0.68%Mo, I f vw mn~dbg*_Wco vInDetwatteriza- ak"J ~00 ot --f6rr1Wml riess after cold worldng wiW~-Wlhsequent heatLr , g (as -eho i Enclolrve)j- andv.- determining the recryntallIzation tenipe~ature from hordtiows cuvp~s- tt nufflalenUy low rato of_(0_jfuajotx RAW with after immyoring.: The reddEs Meato ffiat   U6846 I~X 4iA A Fig. 1. locrokardneso of ferrite ve temperaftrot haadm-;~.bvld worfftg..FS-11(to  Isl : AP4 iv  IAQ.I~MUA~,-ZZ, , kand.takh;i.nai0c; 13U!',ZDYiU, A.E. , Joktor tckhn.n:~.uk; L I-ISRUNA, A.V. , irzh. P'roportloa of rolaxn tion-rusiatau-,tt, kE11003) st-cal. Mat-alloved. i tarm. obr. mot. no.7:34-37 Jl (MIRA 15:6) 1. TSentral'nry nauctino-isglec~,ol;aluollsl,,iy inatitut *Uckhnoloc-ii i mashinostro-,,-eniya i Mcrftral~nyy nauclaw-isviedovatallskly inbtitut chernoy metallurgii, (Ghromium-mnadiura stoA.-Therm&I properties)  VOLKWAP T.I.., kand.tekhn.nauk; IIETROPAVLOVSUU, Z.N.,, kmA.tekhn.nauk Pear.lite, EP44(TsZhIV) stmel with relaxation resistance at teaperatures ranging from 565 C to 600FC. Energomashinostromie 8 no.1:33-36 A 162. (141MA 15:3) (Stool--Testing)  KRKIN, I.L., d6ktor tekhn.nauk, prof.; FETROPAVLOVSKAYA, Z.N., kand.takhn. nauk Dependence of the stress relaxation process in steel on the degree of ferrite alloying. (Trudy] TSNIITMkSH 105tl2-29 062. (KRA 15:8) (Steel alloys--Metallography) (Strains and stresses)  VOLKOVA,, T.I.,, kand.tekhn.nauk; FErROPAVLOVSKAYA, Z.N-., kand.tekhn.nauk Pearlitic steel for fastenings on power plant equipment with an operating temperature of 565-600 . [Trudy] TSKIITKASI.'. 10539P 107 162. (KRA 15:8) (S,.?el, Heat-resistant) (Steam turbines)  S/590162/105/000/007/015 1031/1242 AUTHORS: Vollcova, T.I., and Petropavlovskaya,, Z.11., Candidates of Technical Scienc4s-. --- TIT=,, ?,~rlitic 3teol for joints in power equipment operating at. tenperqt1ires of 565-6000C S OURCE Mosco%,.,. Tsentral"nvy nauchno-riesladovatellskly institut telffinologii i mnshinostroyeniyao Trudy. v*105, 1962, 98-107 TEXT: The developnent of perlitAc,'steels With a relaxation constant Of at 1A93t 10 000 = 10 1,9/mm, at 565OC-is difficultb Two spe- cinons of perlitio steel 225X IM 2 1 ' (25101 IM IF !BR), a la'~ora_ tory alloy 10 (TsZhIO) and an Industrial alloy 44 (EP 44) wero hented to 11000C, then air-conled, and tempered at 7300C for 6 hours. As a result of the high tonmering temperature, Brinell hardness dropped to 230 but the dosirAd structural stability and creep behavior visre achievedo The F.P44 specimen.9 have a sorbite Card 1/.0q  I So 39629 S/I-29/62/000/007/0011/008 E193/E333 1ya, 4.!j%L. , Candidate of Technical AUTHORS: Pot rop a vLQvsJjf- Sciences, Dorzdyla, A.N., Doctor of Technical Sciences and Morlina, A.V., Engineer ,rITLE: Properties of steel. 9 9 3 (Kh12Wfl3F,`R(ZI993)) with a high relaxation stability PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallov, no. 7, 1962, 34 - 37 T EXT The steel 1Xh12V.\1BFR (composition, 0.17 C, 0-34 Mli, 0.22 Si, 12.6 Cr, 0.40 Mlo, 0.70 W, 0.25 V, 0.5 Xb, 0.10 Ni) has been developed as a relaxation-rcsis.~ant manter.jal for service at temperatures up to 600 0C and the object of the present investi- zation was to study the effect of several factors on its mechani- Cal properties. The experiment's were carried out on samples of laboratory and industrial-scale m&s, both vit,-i and without boron additions. No difficulties were expcrieaced in fabricatinZ this steel (hot forging at 1 150 - 850 OC, hot rollin'-1 at 1 200 - 850 OC). The optimun, hardening procedure for both B-bearing and B-free specimens was holding at 1 150 0C for Card 1A  9/62/000/007/004/003 Properties of .... S 19 3 / Z3 3 3 30 min and oil-qucnchin~-. The tei;r3crinZ temperature was chosen from data on the effect of tezipering temperature on hardness of the steels studied, after which the effect of various licat troaL- i-.ients, entailinr temperin- at 650 - 7'20 0C with or i-:it'nout sub- 0 , - -,anical sequent aZeing for 3 000 hours at 600 0oil the mccl properties of ti-iese steels at 20 and 565 C .%*as dctori~,,.ined. Stress relaxation --as studied at 550 - 60 0C on rin,- s-3ecimens under an initial stress of '710 or 35 ks/r= ti-io uitability of various specimens for service was assessed from results oi these e.~periments extrapolated to t = 10 000 'hours, wrhich represents the tire between %iajor overhauls of boiler and steaci-conduit plants. Finally, the stress-to-rupture of the d steel at 565 and 600 OC was detormined on both smooth and notche test pieces. Several conclusions were reached. 1) Steel Khl2VMBFR has a hi-h relaxation stability and creep resistance at 550 - 580 'C. After 10 000 ours the initial stress of 30 kg decreases to 1.0 - 12 1C,-/m-1 at 565 C and to 9 - 10 kg/m=2 at 530 OC, the streas-to-rupture in 10 000 hrs Card 2/4  s/129/62/000/007/004/008 Properties of .... E193/E383 at 565 OC anountinz to 26 Z8 2 . 2) The best combination of mechanical propertics botli at room and elevated tci:iperaturos is achieved after a heat-treatment %,;,iich entails0oil-quenching from 1 150 0C and 3 hours tempering at 630 - 700 C; typical Values obtained after this treatment are given below: Yield pt., UTS Elon- Reduction Inpact strength, 2 12 ,kg1mm, kg/mra at-,.o,,-i, %, in area,~'c' At 20 -C In' Aiuieal' _> 1150 0c, Ton, OrIn, 79 95 14. 0 52.0 6.o or 6.50 - At 565 'C Annealin- 1150 'C~ Tem?e,ring 55 59 16.0 65.0 650 0C Card 3/4  S/1-2,)/62/000/007/004/003 Properties of .... E193/P,383 3) The t-,,.echanical propertics of stcol Khl2V'MBFR are not affected by addition of B. Prolonged (5 000 houro) azeing at 600 0C brin~;s about a slight decroase in tile strengtln of this steel which, I nowever, is still above the specification limit (0,0.2 40 Steel 1~hl2T-ILFR can be reco=-,ended as mr..torial suiTable for bolts and pins used to join or secure various :Darts of stea:-, turbines and boilers -,iade of ferritic and mart~arsitic steels, provided that tile thermal-expansion coefficients of these stools are similar. TI-ere are 4 figures and 3 tables. ASSOCIATIONS: Ts.NIIT'4ASh Tz'NIIChM Card 4/4  ---378)3 S/123/62-/000/008/005/016 Aoo4/Aiol AUTHOR, PetropavlovskeTa, Z-..N. TITLE: Improving the relaxation strength of the 25 X 2 M 1 (D W 723) [25Kh?,%11F (E1723)] grade steel at a temperature of 565,3C PERIODICAL: Referativnyy zhurn&l, Mashinostroyeniye, no. 8,1962, 19, abstract 8A125 (V sb. "Issled. novykh zharoprochn. splavov dlya energetiki". Moscow, Mashgiz, 1961, 130-140) TF,X'f-. The author presents the result of research work to study the pos8i- bility of increasing the relaxation strength of the 25Kh2MlF grade steel by way of additional alloying with carbide-forming elements: Nb (0.2 - 0.9& Ti (0.3%) and Zr (O.Vb). The specimens were subjected to normalizing (at 1,100 C) and high tempering (660 - 6800C) to secure optimum heat-resistant properties, The relaxation strength of the steel was evaluated from the stress drop magnitude during 1,000, 4,000 and 10,000 hours. It was found that only Nb effectively Increases the relaxation resistance of the steel. Ti and Zr accelerate the stress relaxation process. FAbstracter's note: Complete translation] Vyl Card 1/1  S/13'(/6P-/000/004/117/201 A052/A1O1 //S AUTHOR: Petropavlovskaya, Z. N. TIT LE: Raising relaxation resistance of 25X 2M 1(~ (2:-)Xha41F) [911 723 (E1723)] steel at 565oC PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 4, 1962, 511, abstract 41317 (V sb. "Issled. novykh zharoprochn. splavov dlya energetiki". Moscow, Mashgiz, 1961 130 - 140) - AJO /1,/ TEXT: An addition to 25Kha4lF steel of strong carbide-forming elements (14b, Ti and Zr) up to 1% leads to qu4litatively different changes in the rate of the stress relaxation process. Only Nb has an effective Influence on the Increase of the relaxation resistance of the steel; Ti and Zr contribute to a consider- able acceleration of the stress relaxation process. This is explained by the fact that only an additional alloying of this steel with Nb mrkes it possible to produce a sufficient strengthening of ferrite with Mo and the highest carbide phase stability, which is secured by tho presence of Nb enrbWes. 25X 2M 1CPF1 (2510041FB) steol containing 0.2 - 0.4% Nb after normalizing at 1,100cC and tem- Card 1/2  S/ 137/62/000/004/117/201 Raising relaxation resistance of ... A052,4101 pering at 6600C has higher relaxation resistance characteristics at 550 - 56-50C compared with 25Kh2NIlF steel containing no Nb. There are 10 references. T. Rumyantseva [Abstracter's note: Complete tranolation] Card 2/2  36 8~ b S/137/62/000/004/116/2c)l A05~VAIOI AUTHORS: Borzdyka, A. M., Petropavlovskaya, Z. N., Merlina, A. V. TrK,E: Relaxation-resistant chromium steel for fasteners of steam ttirbines PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 4, 1962, 53 - 54, abstract 41316 (V sb. "Issled. novykh zharoprochn. Gplavov dlya energetik.L" Moscow, Mashgiz, 1961, 141 - 150) - A)u. I& TEXT: As a fastening material for steam turbines with the temperature of stearr. of 565 and 5800C, 20 X 12 M854) (2OKhla4VBF) Cr-steel can be used. 'PhIs steel is recommended for fastening stown turbine and boiler elements made of ~3~',802 (EI802), 15A iiA (15Kh11L)' and other type steels. 20)(h12M%W steel after oil hardening at 1,1500C and tempering at 680 - 7000C has a sufficiently high re- laxation resistance and a long2time strength at 550 - 5800C and shows no sensi- tivity to notches. The residual stress value after 10,000-hour testing of ring samples of this steel at 5650C corresponds to the technical conditions for fasten- ing materials and is equal to 10 kg/rmn2 at e. - 30 k&/mm2 and at 580`C it amounts r- to 9;5 kg/mm-. T. Rumyantseva r LAbstracter's note: Complete translation] Card 1/1  3h667 S/114/62/000/001/004/006 /.P / /,570 E193/E383 V_ayj vskava Z~X.. Candidatf-i. of AUTHORS. Volkova, T.I. and PAX-0 Technical Scienceg" I I TITM Pearlitic steel 10144 (V4)Kio) (EP44(TsZhlO)) PERIODICAL: Energomashinostroyeniye, no# 1, 1962, 33 36 TEXT- In continuation of an earlier work (Ref. 1 Metallovedeniye i termicheskaya obrabotka metallov, no. 2, 1961) the present authors studied the high-temperature properties of steel 25W1818 (25KhIMIFIB) designed as a materi8l for reinforcing details of turbines operating at 565 C. A tenta- tive code mark, TsZhlO, has been alotted to this teel which, in industrial practice, is known as steel EP44. The chemical analysis is given in Table 1. The o8timum treatment of this steel consisted of heating tool 100 C, air-cooling and tempering for 5 hours at 730 C, high-temperature tempering being necessary to ensure relaxation stability in serviced After this treatment the steel constituted a mixture of ferrite with uniformly distributed coarse carbide particles, Some mechanical properties of the steels studied are given in Table 2. The results of relaxatiop tests, carried out in the Card 1/1  S/il4/62/000/001/004/006 Pearlitic steel E193/E383 course of the present investigation on ring specimens at 565, 580 and 600 0C, are reproduced in Table 3, the values in brackets being obtained by extrapolation which, as had subsequently been established, gave values slightly lower than the actual. The temperature dependence of the relaxation stability is shown in FiS6 4, where the stress 2 (00, kg/mm ) after 10 000 hours is plotted against test temperature ("C), the experimental points denoted by crosses. dots and triangles relating, respectively, to a specimen of a laboratory melt (TsZhIO) tested under an initial stress W - 30 kg/Mm 2, a specimen of an industrial melt (EP44), tested 0 2 under O,= 30/kg/mm and a specimen of EP44 tested under tr = 25 kg/rm2 the broken horizontal line corresponds to the 0 value of o-, as specified in TU The results of creep tests carried out at 565 0C on cyl.indrical specimens (10 mm in diameter, 100 mm gauge length) normalized at 1 100 0C and Card 2A  - PZTROr"VSKAYA.._Z.fi.. kand.tekhn.rauk Investigating the relaxation stability of steam-turbine materials. [Trudy] TSNIITM&SH 100:238-247 '59. (MIRA 13:7) (Strains and stresses) (steam turbines)  SOV/129-59-5-10/17 AUTHORS: Cand.Tech.Sci, Z.NN. Pretropavlovskaya. Di-.Te-.h S,,1 777-effi% A.M. Borzdyka; n- TITLE: Relaxation Stability of High Chromium Steel (Relaksatsionnaya stoykost2 vysokokhromistoy stali) PERIODICAL: Met-allovedeniye I Termicheskaya Obrabotka Metallo., 19.159, Nr 5, pp 45-50 + i plate (USSR) ABSTRACTS The results are described of Investigations of the process of relaxation of high chromium semi-ferriti, steels (0.10 - 0,15% C; 10 12% Cr; 0.3 - O~6% Mo) as a function of their degree of alloying and their phase state, The work hardening was effected by alioying of the base alloy with vanadium, tungsten, molybdenara, niobium. and nickEll. To detect 'as fully as possible ,Ihe influence of these elements on the relaxation statil-tyi I -divided int,:) f0Ljr rT - the expe imental malts wore sub cur)^-, see Table 1. The metal was produced in a 50 kg capa(~Aty induction furna(-~ with a basic, lining from a (haTge consisting of chemical iron and pure ferro--alloyE. ',"he relaxation tests lasted 1500 to 4,000 hours and theso were carried out at 550 to ~65' 0C with an initial speclfi,. Card 1/3 load of 25 to 30'kg/mm . The relaxation stability iias  SOV/129-59-5-10/17 Relaxation Stability of High Chromium Steel judged from the residual stress after 4000 hours, For most heats this magnitude was determined experimentally, The influence of individual alloying elements on the relaxation stability can be judged from the graphs (Figs 1-4). Table 2 gives the phase composition of the steel from the melts investigated in the experiments. The following conclusions are arrived ats 1) Additiomil alloying of steel, containing 0.15% C~ 12% Cr, and 0.5% Mo, with vanadium (up to 0.1+%), tungsten (up to 0.8%) and niobium (up to 0.8%), introduced separately or together, brings about an increase of the relaxation stability of the base alloy. From the point of view of increasing the resistance to relaxation the most effective measure is to add simultaneously all the three elements. 2) The relaxation stability of the investigated steels depends to a great extent on the quantitative ratio of the structural components (sorbite and ferrite) and also on the degree of hardening and the stability of ferrite. In order to obtain a high relaxation stability, alloying Card 2/3 0f high chromium steel should ensure a high strength of the ferrite and the highest stability of the ferrite and  SO111129- 59-- 5-10117 Relaxation Stability of High Chromium Steei carbide phases. For "fastening" components (fittings) which are required to have satisfactory relaxation properties at 565 OC, steels of the following two compositions are recommended: (1) 0.2% C; 12% Cr; 0.8% Mo; 0.3% V; 0.8% Nbt and (2) 0.2% C; 12% Cr; 0. 5% m0; 0 ~ 4-% V; 05% W and 0. 5% Nb. Card 3/3 There are 4 figures, 2 tables and 6 references, 4 of which are Soviet and 2 English. ASSOCIATIONS: TsN!ITMASh and TsNIIChM  SOV/ 124-58-5-6132 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 5, p 156 (USSR) AUTHOR: Oding, I.A., Petropavlovskaya, Z.N. TITLE: Effect of Heat Treatment on the Relaxation Stability of Austen- ite Steels (Vliyaniye termicheskoy obrabotki na relaksatsion- nuyu ustoychivost' austenitnoy stali) PER10DICAL: V sb.: Ispytaniya i svoystva zharoprochn. materialov. Mos- cow, Mashgiz, 1957, pp 61-80 ABSTRACT: E1388, E1402. and E1448'- grades of steels were investi- gated. The heat treatment consisted of quench -hardening with ensuing single-stage or multistage aging. Microstructural, phase, X-ray, and chemical methods of analysis were em- ployed. Investigations revealed that the relaxation resistance of steels is dependent upon the condition of the solid solution and the carbide phase and on the interaction of these phases. It is demonstrated that by varying the process of the stabiliz- ing anneal relaxation resistance can be raised or lowered. In order to obtain structurally stable austenite steels application of multistage aging is recommended as a means of increasing Card 1/1 the long-term service strength. G.A. Tulyakov 1. Steel--Stability 2. Steel--Heat treatment 3. Steel--Analysis  AUT111OR: PetrODavlovskaya9 Z. N., Candidate TITILE, ""~Eff bet -~ofHe~ar ment on tho Chromium-Molybdenum-Vanadium Steel botki na chuvstvitellnost' k nadrezu vanadiyevoy stali) 129-58-7-14/1? of Tec-'run' ca! Scie*nces Notch Se jjSjtiV4 L~ t7 )f (Vliyaniye termoobra- khromoinolibdeno- PERIODICAL: Metallovedeniye i Obrabotka Metallov, 1958, Nr 7 PP 54-58 (USSR) ABSTRACT: The influence of heat treatment is investigated on the notch sensitivity of the Soviet Cr-Mo-V Steel EI?23 (0.25% 01, 2.3% Crly 0.99% M0, 0.45-A V9 0.60% Si, 0,35% bin) quoting also comparative results obtained by Newm Jones and Sachs (Ref.L~). On the basis of the results obtained by the author on the Soviet steel E1723 and the quoted results obtained for the American steel 17-22A (S), the following conclusions are arrived at, 1) Heat treatment of Cr--Mo-V steels has an extremely great influence on the notch sensitivity during long duration strength tests. 2) By apDropriately choosing the heat treatinent regimes it is possible to weaken the notch censitivity and to Card 1/2 impede the embrittlement of Cr-Mo-V steel, For a steel  129-58-7-14/17( RfPftt of Heat Treatment; on the Notch Sensitivity of Chromium-lAolybden-LLm-Vanadii.un Steel with 1.5 to 2.5% Cr, 0.5 to 1% Mo and 0,2 and 0.5% V the following heat treatment is rational:twice normalisELtion a"nea6ing carried. out at first at a high temp8rature (1040 0) and ther.. at a-lovier temperature (960 C) follovied by high temperature tempering at 680 C~ There are 5 figures, 1 table and 5 references, 2 of ~,,,hich are Soviet, 3 English, ASSOCIATION: TsNIITMASh. Card 2/2  FST T? C IDAVLOVSXAYA, Z.N., kand. tekhn. nauk 3ffect of heat treatment to notch sensitivity of chromium- molybdenum-vanadium steel. Metalloved. t obr, met. no. 7:54-58 J1 '58. (MIRA 11:8) 1. TSentrallnyy nauchno-iseledovatellskiy inetitut takhnologii t mashimostroyeniya. (Chromium-nolybdonum-vanadium steel-Touting) (Hatelso Iffect of temperature on)  ~/j /V 1 37 - 1957 -1,! -~~,04t) Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 1-2, p -)0-' USSR) AUTHOR: Oding, 1. A., Petropavlovskaya, Z. N. TITLE: The Effect of Heat Treatment on the Relaxation Stability of Austenite Steel (Vliyaniye termicheskoy obrabotki na relak.gatsionnuyu ustoychivost' austenitnoy stali) PERIODICAL: V sb. : Ispytaniya i svoystva zharoprochii. materialm Moscow, Mashgiz, 1957, pp 61-80 ABSTRACT: An investigation of the effect of various heat treatment pro- cedures on the heat resistance properties of austenite stech- arid, in particular, on their relaxation stability (RS) . Spec iment, of the EI 388, E1402, and E1448 steels, in the shape of forged and rolled rods, were quenched and then subjected to eLther single-stage or multi-stage aging (A), which was carried out in accordance with one of two procedures. In the first version the initial heating took place at a temperature below that of the second heating, but with longer exposures ( 100-500 hrs) . in order to prepare the solid solution for the subsequent separatic,,~ of phases and to create a large number of submicrosocopic nuclel Card 1/3 The RS was studied on annular specimens by means of the method  I ~7 I 9L), -I 1 -1 ;O-1t The Effect of Heat Treatment on tne Relaxrion St,ibili',; ~( or~r I of 1. A. Oding; prior to the test the mignituGe of E: at v3,17101-1~ temperatures was determined for ali gra(le,, ot sluci b~ e~e( f rur~i~ means. In addition, the influence of the concii*Aons )f A On the mechanical properties and on microsti u( tural thangf-, in aw,icnilt, steels was also investigated. It is shown that the RS of tile ~tvvll considered depends Dn tile -state of file solid solution ind ot tht carbide phases, as %vell as of their dispersion ana !he Intel dt '1, between them. The less stable the solid solution and tile Ism-tiler the amount of the hardening phases, the lower the RS. Ati analogous effect is produced by an increa~-ed degree of dispel - or, of the particles whi(.Ii are separated out and ar, increa. ed nc!~ uniformity of their distribution. The multi -tage --criditiona oj" stabilizing A strongly influence,~ the fcrm,tion ut haidcnmg phases. Under repeated he.ting further depo-ilion ot , ~trbid-' upon the already formed submicroscopic k lct i - observed in the multi-stage A pro(e-,51 thus the h,rO( T),T),' Pi..i-( are distributed more uniforrnly and are more di'pcl than in the case of singlc-stage A, which exp).~,Y), the imprt-t-d RS observed in the EI-102 steel after it has been exposed lu ii~ii)ti stage A. In tile El 388 and E1488 z;tec)s the torni,~tion M phc" Card 2/3 is retarded in tile ( OUrse of multi stagc A, h rcsu,t . 'N ~'l  i 17- j');' The Effect of Heat Transfer on the RelIxation Stability (( orl? ) reduced stability of the solid Solution tind In -1 10%VCT RS is explained by the presence of cubic Cr ( arbide in tht--e -1e, I which can change its composition within a rather kide r --tige nd is capable of reacting with the solid solution thu, rcd~icinp 'he stability of the metal structure. The employment of mult. -'~I-t A is recommended as a means of increas,ng the ~orvnglh td structurally stable austenite steels, operating for a 1()T-.g t,TTI( under conditions which CdUSe relaxation. L 1. Austenitic steel-Stability-Effects of heat treatment 2. AustAnitic cteel-Propertles-Temperature factors Card 3/3  013 WN A.44 i/6~2 /6~6 :7 i;~--_ i "r"Wot g1h *sImIfa_ Z. ri trODAV -0- Aj, N. '10THOR-i ti A*_M ............... f allo7ing Oloment's ~G a-~,- -k-stability ITLBs on- th6--3. ii~x i0 pb- xi6klu,m---~ --steols LegIrOV-64i, si-RIQ70 bl~ MA iahil:,auo, "0 chrondum steelp On - z 0 _U6_ rolaza 16 IV* 51;0010 Ot- tile:, 0 typ -oil forrit o . 34~ Le~--iierv -: The - s amp: a -OLI__ar~ --subjeetod to ~A q ench d _--anneallu R lwmtiou. tolsts. Vero _dfimiad:~ Out _.O~: Od - ~__I 0~,% e Imce. -it:- 0 -hrs Steel w;t. h 19- Or and tor- &-:Wiod,',z:Of 4000   ILI si 400&!L5,- 2- ACCESWON -1 KR; AR4045893 ~001/1065/1065 BOVRG_Ni~ Ref zh-,' Metallurgiyap Abs.-71407 t-Aler 14 -_22rzdt_kii -A -1 effeet , falloyiag- clams ivon the relaxation stability TITIZ:~ Ilia: ~..nt hlgb, chromium stools -'CITED k;ObRCR:- Sb, Legirovaniye Staley* Kiyev, Gostekhizdat USSRj, ;1963, 342-150 ITOPIC TAGS: alloyingr relaxationp 'high chromium steel,, ohromitua isteel, Cr. V. Wt C, Mo. Nb, Nb earbidep ferritio steelp atoel T stabill; -hi-&-ahromium--st la -of thle HANSLIXIONi7-The re 4-10- Gro 0,3-0-6 :80mifoytito type (0610-0015% C 0 % go) i4as studied as a ftinetion of their degree of alloying and phase state. The samplev were quenched in oil and eubjected to a high tempering, Relazation tests were oarried out on ring shaped Oding samples at .550-56,r'0, The duration of the testa was 4POOO hourv. Steel with 12% jOr and 0*5% Ma. taken as a basey haa a low relaxation resistance, 7-Card 1/11  8. 65 DAC 5 AOCESSION-NR AR4045893 ..-,Alloying of steel.with vanadium-Aup to o,6%)--somewhat improves Its -'rala3ation stability. Further irtereaae in the content of V up to 1% 1-i ~L to a decrease in relaxation stability; for this reason, the ---alloyin- of high chromium stools with vanadium should be limited to. ;.~01-3-%69* The- introduction Lof W (up to 1%) into steel with 12% Crq - dL % V Somewhat -,Oi5,.L M61 _snd 0,45 incireases, the relaxation stability; 'howeverp further Increase in the W content ine "ases-th9--spGed--O-f the elOtation -process *---With :an - inor se -in C-contentgand A the same :~time 'of Ho and C. in steel with IN Cr and 0.4% V, the nature of the -effeeb of W is retained. Increased content of Mo from 0*3 to 0.7% in steel with 12% Cr and 0.4% V, alloyed with W (up to 1%)., Increases relaxation stability, An optlr=trelaxation stability is observed in semU'Drrite steel with 12% Cr, 0.5% Mo, and 0.4% V, with a supplement- ary illoying with W within the l1mitt 0.3-0*5%; at the same timet the C eontent should not exceed C'.15-0*2b%, An increase in the content of C from 0,15 up to 0,41% in steel with 12% Cr and 0.5% Mo, alloy-,Dd with V. or with W and Vp leads to a martensite structure of -the oteelp which lowers relaxation stability. The introduction of lb UP to 0,07%--(with 0.15%C) has an efficient effeat on relanation _Vhich.increases two fold. However, the efficianoT of t1bg -----Card   PETROPAVLCVSKIY, A*; TAJ.I((N, Ji. Standardizing conbli.cA feods and L-Tprovirl,, thoir (junlity. St&ndartizatsila 29 no.7:31-32 Jl 165. (MU-,A 18:11)  ,_,~T~IOFAVLOVSKIYJ A.A., kand.tatim.nauk, dotuent Study of the atability w4 ratural oacillations of ti-xce-dimennicnal arched systoms. Trudy MIJ*T no.134:12-23 161. (1111U, 15:5) (Arches)  PETROPAVLOVSHY, A.A. (Foskva) Three-dimensicnal vibrations of an arened span with traffic 171 the middle. Stroi. mekh. i rasch. soor. 4 no.2:41-45 '62. IMIR" 1, : ~ ) (Bridges, Arched) (Vtbration)  ..PETROPAVLOVSKIY, A.A... doktor Ledin, nauk Verifying the spa'-'a: stabiiity of continuous combine,~ sr-~, spans. Issl. po teor. sooruzh. no.13:17'1-181 16.1.. L F:',)  PETROPAVLOVSKIY, A.A., doktor tokhn. nauk, dotsent Matrix algorithm for deriving the values of special f~mcticns of the transposition method. Trudy WIT no.174:49-51 163. (MIRA 18s1)  KOLOUSHEK, Vladimir (Kolouick, Vladimir], cioktor tekim. imuk, prof.: BABUS.H.KA, 1.[BatrAra, 1.); GENRIKH, I.flienrich, 1); YERZHLUA,Ya.[jet-abek, J.); 'R."'CUSCY. Ltranslatorl; YAKUShTVt'%, G.A., inzh.ftranslato, doktor tekbn. nauk, prof., red. [structural dynaricE. Translated from the Czech' I -) ii k. a stroiteltnykh konstruktsli. ?/,oskva, 3trolivint, 631 (141RA 18:5) 1. Chlon-karrespondent All Chekhoslovatsk~.,y 3otsialistlchr!- okoy Reapubliki (for Koloushok).  PETROPAVIDVSKIY, A.A., dotsentp kand.tekhn.nauk Strength analysis and the determination of natural vibration frequencies fora combined two-floor three-span arch system of the type of the river span structure of the Luzhniki Subm7 Bridge. Trudy MlIT no.3:132-159 161. (MIRA 14:5) (TrusBee-Vibration)  ANDWEV. V.G.; FSTROMVIDVSKIT. A.A. (Mookva) Designing the river span of the subway bridge In loauhniki. Stroi.mekh.1 rasch.soor. 1 no.5:35-40 '59. 041RA 13:1) (Floscow-Bridges-Design)  124 -58-9-10452 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 9, p 147 (USSR) AUTHOR: Petropavlovsk iy, A. A. TITLE: The ~1,f ta~enc, oe-NeF,-vior-of a Loading on the Magnitude of the Stability Coefficient of Bridge Arches (Vliyanive povedeniya nagruzki na velichinu koeffitsiyenta ustoychivosti mostovykh arok) PERIODICAL: Tr. Mosk. in-ta inzli. zh. -d. transp. , 1957, Nr 91, pp 103-116 ABSTRACT: Determination of the influence of the changes in direction cif the vertical web members, during the process of failure of art entire arch structure, upon the magnitude of the critical force that corresponds to the failure of a plane arch equipped with a stiffening beam (the superstructure of a spandrel-braced arch or the suspended chord beam of a bow-string arch). Five types of structural configurations of the connection of the arch proper with the stiffening beam, both with a hinged and a continuous roadway, ~kre examined. The problem is solved by means of successive approximation, wherein matrix symbolics and terminology are employed. Having given the displacement of some points of the axis of the arch, ~he author determines the corresponding bending Card 1/2 moments in the various sectiors of the arch, whereupon he  12-1-58-9-10-152 The Influence of the Behavior of a Loadirg on the Magnitude (cont. ) obtains "elastic loads" and therefrom deterr.-iines the displacements of tile points of the axis of the arch in the subsequent approximation. I'll e 1) r o -, c is continued until two successive approximations are sufficiently close relative to the desired parameter. The results of numerical calculation~- adduced show that the mode of connecting the arch and the stiffening beani and the respective behavior of tl~.e connecting beams during the course of the process of failure exert a noticeable influence on the magnitude of tile critical force and that they must., therefore, be taken into consideration, n actual engineering design projects. Bibliography- 22 references. K. B. Aktsent~-a,-, 1. Bridge!~--Stressei, 2. Card 212  18(7); 14(10) PHASE i BOOK EXPWITATION SOV/2957 Pretropavlovskly, Andrey Aleksanlrovich, Cand1date of Technical Sciences, - D 6 -ce-n-F - - - ------------- Osnovy rascheta tonkostennykh sterzhney otkrytogo profilya po teorli professora, V.Z. Vlasova; lektsiya Ilya 3tudentov itroltel'nogo i mashinostroitellnogo fakulltetov (Fundamentals of Analyzing Thin-Walled Bars With Open Cross Section According to Professor V.Z. Vlasov's Theory; 1.,ecture for Students of' Faculties of Civil Engineering and Mechanical Engineering) Moscow, 1958. 39 P. 2,000 copies printed. Sponsoring Agency: Vsesoyuznyy zaochnyy politekhnicheakiy Institut. Kafedra soprotivlenlya materialov i stroitellnoy mekhaniki. Resp. Ed.: A.V. Darkov, Professor, Doctor of Technical Sciences; Ed. of Publishing House: T.I. Artemova; Tech. Ed.: P.G. Bobrov. PURPOSE: This booklet is in-tended for students of construction engineering and machine building. Card 1/3  Fundamentals of Analyzing (Cont.) SOV/2957 COVERAGE: This booklet preEients the fundamentals of torsion analy3is of thin-walled bar3 as developed by Professor V.7. Vlasov. A thin-walled bar is definE!d as one whose length Is from 8 to 10 times greater than the ME!an cross section, and whose cross sec- tion is considerably greater than the thickness of any wall. Vlasov's analytical approach rests on two basic hypotheses: fl shear deformations of the median surface are equal tD zero, and 2 the contour of the cross section ~s not deformed, i.e., the distance between any two pointa on the croan section remain.3 constant as the bar Is deformed. Sample probleme are given. Professor A.A. Umansk-ly is mentioned as having made contributions in this field of particular Interest to the aviation Industry. There are 4 references: 2 Soviet and 2 German. TABLE OF CONTENTS: Introduction 1. Concept of restrained torsion 2. Basic hypotheses 3 3 6 3. Derivation of a formula of normal stresses during restrained torsion 11 Card 2/3  Fundamentals of Analyzing (CDnt.) SOV/2957 4. Derivation of a formula of tangential stresses 14 5. Determination of the flexure center and of the initial point of sectorial areas 16 6. Expression of normal and tangential stresses by flexure and torsion force-factors 20 7. Computation of geometric characteristics 25 8. Differential equation of torsion of thtn-walled bars 28 9. Sample analysis of a thin-walled bar 33 AVAILABLE: Library of Congress (TO 350 P~)' Card 3/3 AC/jb 16-60  PETROFAVLOVSKIY, Andrey Aleks ndrovich, dotsent, kBnd.tekhn.nauk*, DARKOV, A*V*v profag doktor teklm.nauk. otv.red.; IMEMOVA, T.I., red. Izd-va; BOBROV, P.G.. tek~m.red. (Principles of the calculation of open thin-walled beams; based on the theory of profeatior V.Z.Vloeov-. lecture for students of the departments of construction anginoering and machinery construction) Osnovy rascheta tonkostoWkh sterzhnei otkrytogo profille-, po teorii professora V.Z.Vlasova; lektsiia dlia studentov stroitell-riogo i cashinostroitelinogo fakul'tatov. Pod red. A.V.Darkc-va. Moskva, Voss. zaochuyi politekhn.in-t, 1958. 38 P. (MIRA 12:4) (Girders)  I/C, //.I./i.I.,. ;1, "" -, , " . .1 PXTROPAVIPOI-...,. , kand.te):hn.nauk dots. Zffect of load behavior on the stability coefficient of bridge arches. Trudy MIIT no.91:103-116 157. (MIRA 11:2) (Arches) (Bridge construction)  FETPOPAT=FT'7.' A.v. Increasing quality require.-xmts for the seedn d' pulse crops. Stan dartiza ts iin 29 no. 1-7t23-24 71 165 (',',P.A 19:1) 1. rachal In ik otdc'.a sel 1s?okhozvayatvtmnn-.r prodttkts It V:ie- soyuznogo nauchno-ii-~slednvatelfsl,.Of-,o instituta strTd ,11-4 1 _ 7atsii, Moskva.  PETROKANSKIY, B.I.; ZkIEREV, N.P., retsenzent; MIZIN, V.I., 4 ".~--nt"MM; PETROV, A.L. retsenzent; KRISHTALI, L.I.p red.; MURAVIYEVA, N.D.., tekhn.red. [Statistical accounting and the work analysis of a rail- road division) Statisticheskii uchet A. analiz raboty ot- deleniia dorogi. Moskva, Izd-vo "Transport "1964. 218 p. ~MIRA 17:3)  PRMOPAVLOVSKIY AOMOS agronolso --ftswwwmw~- --6 -'-- Disregard of standards in seed growing Inflicts enormous losser. on the nations.1 economy, Stand tizateila no,5:12-17 S-0 '54. (XLRA 8: 2) 1e, Komitet standartov, mar I ismeritelInykh priborov. (Seeds-StaDdards)  PETROPAVLOVSKIY, B.M. 'Health resorts, sanatoriums and curative regions in Kazakhstan" by S.I.Zamistin. Reviewed by B.H.Petropavlovskii. Yop.kur., fizioter, i lech.fi2.kullt. 22 no.3:90-91 My-Je '57. (MIR& 11:1) (ZAUKHBTAN-HEA12H RESORTS, WATIMING PIACES, WC.) (ZAMIATIN. S. I.)  PETROPAVLOVSKIY, B.P. Quality control of ball&st ~.anDllng. Put, I T t. ik.cz. ? nr,.10:42 '6: 4 p'I (PIRA 16:12)  KMEK331# C^,A,; TPAVRIN# V.S.; VIADISIAVlSV, Yu.Ye.; ANTONOVp N.V.; GWFICH, E.M.; SHIT, ife.B.; ~~PA~VIOVSP~YB-F~- ACEMOVt N.I.; BDRHDTIN, I.H. Inventions. Gor.zhur. no.2e74-75 7 163. (HM l6s2) (Mining machinicy-Technological innovations) (Bartbmoving =tchinery-Toobnological innovations) (Railroads-Ralls)  C OU NITRY USiR CATEGORY Farm knimnls. Q Small Horned Cattle. ABS. JOUR. RZhBiol, No. 61 1.959, No. 25878 AUTHOR jlj~L~ 1) p. INST. Altay TITU -1 PCEKI.-inq coril silage The Til-fiuericEl 0 r Production of' Sheep. ORIG. PUB. Tr. Altayol-, s.-kh. In-ta, 1957, vyp. 300-309 A135TRACT One-Mindved eove,--! -.r ,--ho Alt--yf*aya breed were divided ln'.o 4 r.,-roups. zn-~~ ratlon~z -Lcr the groups vere of the same ge-neral nutritlv%2! valur~ but differed 1j; the quan'-ity of silnge (1-3 k~,,) contained in them. The control group was fed hay and oats onlf. Ta she6p which were fed silage, the wcol yield Increased (by 1~0- ' - 11001 b-,,car;i~ longer (by 0,,17-0-31 260 g), th~- cm). 1r, tn~- group ivliich was given kr, of silage, bettf.~r dig?,,-tiQn was obsi-~rvud which increased the nntr-iti,~re v.-Oue of th,- ration. Card: 112  GMGG, P.; LIMBERG, B.; FISTROPAVIANSKIT, G.; TEANDER, 0, -- I Production and partial x-enthation of tetrahydropyranyl- 4-D-glucoigranoside. Zhur. prikl. kbi-. 34 no. l2s2771-2774 D 161. (MMA 15:1) 1. Shvedskaya Issledovatel'skaya laboratoriya loanykh prcduktov) Stokgollm. (Glucopyranoside) (Cellulose xanthatee)  Pmonvuz,Kiy, 0. A. I "Properties of the low-Replaced Fethyl Cellulose aW Its Solutions." Yin. Fighl!r Education USSR, Leningrad Order of Lenin Wood Indur+z-,, Acadewj irreni S. l"'. r1rov, lp-Mr-rad. 1955. (Dissertation for "lie Degree of Csnlichate in Technical Scifmcesl SO: Kni.zhnnya lo!Qvisl. No. 22. 1955. PP 93-105  --------- ---------- -v ~7 ~Pxtatib d I Mnn C!f le Inu VI m jun F;Ift) W 6-nd T'll P 1. ilild rj_&_v&4N. LL -7 =0 - TalgA T-T-L iv mv,, nT 1_7 T ~Rvgm 791 p M-1mcTim an in 4142 Le -1 w Tvljpv~ 40, 1,45 t ilww loll ((.Orr, rim'),fif btvmh,~ Om I'l ( f .5 NfZO) wod.. 2 hm tit Irlo WN *Ith UQ4 Ou'll I mol. Uc~,144, mwl. 0, ~Cllil"-t I 1p i; by trMUlit"helir Y vilul, with Xie. at) i. tlmt 12-18% fq; -The bat la-watelk. 2 05%) -.Lad D; WM -4 lhrs*;'A't V'i. 400 with 47%-Ifl. AP'r wd1bg V%'u.AW, r4t -50~~nd frt~gcl ---i" Ing is J1 Am-rosiA. itl 0,51,.NIORRA'L~ zaln lit is L )kmowlti, I 77, 7~  'Tronertics of ether .-Oics of or. tjj~~ Cl-,emj.s4:r,, Ji I'loncow, Forest  , 3.A, . JIOPAVWVSKIY G.A. 70 ~--' liological stability of low-substituted cellulose others. Zhur.PrIkl. Ithis. 30 Mo,3:4%-4)9 Mr 157, (KLRA 10:5) (Celluloall) (Bacteria, Cellulose-decomposing)  -, ~, P ") Vr-. I-,.-- - - T , v - PMOPAVLOVSKIY. G.A.; VABIL'YEVA. G.G. e~ lov-substituted Na-carbozyzaethylce llul one and Its propertlen as a finish for textile products. Zhur.prikl.kh1m. 30 no.12: 1832-1837 D '57. (MIRA 11:1) (Cellulose) (Textile finishing)  J.2.1 ,;, 3 1,V~_ t .- - ~) q, - '[/ I - f . NIKITIN, F.I.; PETROPAVLOVSKII. G.A. Preparation and proper-ties of lov-substituted methyleallulase and carboxymthylcellulose,. Zhur.prikl.khlm. 29 no.10?1540-1549 0 '56. (Cellulose)  VL."- J GF.Tf-Timw prii cz;) inc: mwd mactvity and thow hWi I"x mr~ gj~ e wl~on itftL4 quitnUites cd tubutiti ;ed iZ k" wtrv(krt-,OI, kale QG jjtHUWW~ Tj* plop, WA 4ftf&A' Iptk-i imi de#wTfbeA of InwAubs-Likuted mthVl~ Lftd  Frope7,ttes of solutions of mot'%,rl -allulose if low derree of aubstituttor. Zhur. prIKI. khIr.. 29 no.11:1707-1716 N 0011, 11 - - 4.1 ) ( 11. T , -?.k I I " . -,, 'I-  ri t v6ctim 4 fi ter paper p 6 r CH CMA) m d Utz j p. I , , lkoxyl did not 4-7v N 'Um a 18_~23 C"wrifwcd-liflh &7  FETROPAVWVSKIY, G.A.; IMUNUAK, M.M. Wthods for obtaining celluloc-a sulfo ethers. Zhur. prikl. khim. 36 no.11:2506-2532 N 163. (MIRA 17:2)  PETROPAVLOVSKIY, G.A.; KRUNCHAK, M.M.; VASIL'YEVA, G.G. Low-substituted nitrates of wood celluloses. Zhur. prikl. khim. 36 no.8:1799-1808 Ag 163. (MIRA 16:11.) 14 I  PETROPAVLOVSKIYY G.A.; VASILIYEVA, G.G.; KRUNCHAK, M.N.; NIKITIN, N.1. - .-I - . Properties of films of law-substitutW nitrates of wood cellulose. Zhur. prikl. khim. 36 no.8:1816-1821 Ag 163. (MIRA 16: 11)  F27ROPAVLOVSKIY, G.A.; VASIL"OVA, G.G. Alkali soluble carboxyzaethyl cellulose and possibilitlea of Its use in the paper and toxtile industi-ies. Trudy LTA no 91:11f-121 160. (MIRA i5:12) 1. Lesotekhnicheskayo akadomiya. (Cellulose) (Textile Industry) (Paper Induatry)  PETROPAVLOVSKI7, G.A. Alkali solutions of low-substituted nitrocellulose. Trudy LTA no.91:105-U3 160. (MIRA 15:12) 1. Irmtitut, vysokomolakulyarnykh soyedineniy AN SSSR. (Alkalies) (Nitrocellulose  NIKITIN, Nikolay Ignatlyevich. Prinimali uchastiyez A&W-10VA. Ye.A., starahiy nauchayy sotr.,, kand. khin. nauk; AKIM, E.L., inzh.- tekhnolog; ANTO11OVSYJY, S.D.,, dote.., kand. tekhn. nauk; VASIL'YhNA, G.G.9 in2b.-tekhnolog; ZAYTSE:VA, A.F., starshiy nauchnyy sotr., kand. tekhn.nauk; KLENKOVA, N.I., kand. tekhn. nauk; HALEVS1WA, S.S.p kand. khim. nauk; NIKITU, V.N.starshiy nauchq-y sotr., kand. fiz.-inat. nauk; OBOLIZISKAYA, A.V., kaj3d. takhn. nauk, dotsent; FETRQFAYLOV~W,.G.A., starshiy nauchnyy sotr., kand. tokhn. nauk; PONOM&M, A.11., kand. takhn. nauk, dots.; SOLECOIK, prof., doktor tekhn. nauk; TOKAREV, B.I., inzh.; TSVETAYEVA, I.P., kand. tekhn. nauk; CHOCIIIYEVA, kand. tekhn. nauk; ELIASHBERG, M.G., doktor tekhn. nauk; YURIYI.-V, V.I.; KARAPETYAN, G.O., red.izd-va; ZAMARAYEVA, R.A.,, tekhn. red. (Wood chemistry and cellulose] Khimiia drevesiny i tselliulozy. Noshra, Izd-vo Akad.nauk SSSR, 1962. 711 p. (NIRA 15:2) 1. Chlen-korrespondejit Akaderli nau). XS1 (for Nikitin). 2. Za7e- du~rushchiy kafedroy j'izicheskoy i kol-loidnoy khimii Lesote-khniche- skoy akader-ii (for Yurlyev). (Cellulose)  NIKITIN, N.I.;. PE7ROPAVIDVSKIY, G.A., kand.takhn.nauk Low-substituted cellulose esters and pro spe eta for their uses. Khim.nauka i prom. 4 no.6:713-718 ':,"~O- (HIU 13: 8) 1. Chlen-kerrespondent %kademii nauk S4H (for Bikitin). (Cellulose esters)  C-q Z. P~',m  3 cq, 1 A re c j I?c  ed Ce E'.,.e -,-I: a.,.J e t S C Th e I :- A p p S C ,iga r s , c i, i Xqa 7 --d C Ev I d Of -Ocl; CF-C"f) A "-L!A f'rc- e -,c x Y s ~i c Tt i Is, vla!3 ~ o' I -,'jj.fj rc,., ~,pl L 11 k I I n 1, z -, F"K,; Tht: ,e2,i.e~ was ga*,ed calo- a e s ne r I 2a c,~ K 1 0 V a a - (Z~-, FK-, Yc I ~ -7, ' ; 11 1, vi e a e I (-- a I I o d Ing 1,~ NaOF a, t~14 as Lis '.,.e abcvt --:-e a ~2 ~2,j 70.3 -'OP I C P,.-Op~~ J.3 Ice - ot t C, C C 1 e j C'"- r~l app Aca or C: 0!-. t, a --~e--,"Od -0  C L