SCIENTIFIC ABSTRACT MATVEYEVA, YE.P. - MATVEYTSEV, P.I.

)UTVNMAI YOOF* . Fhytocoemoti,,. classification of berbaceow vagetatiom and its arrangement in types according to agricultural use in the bay- landis and pa4stures of the Soviet Baltic area. Trudy Bot. imst. Sere 3 no. 1;!%229-252 160, (KM 14t1) (Baltic Sea region-Paetures and meadows)  MLTVBMA, Te.P. Scientific session on problems In the establishment and use of cultiTated pastures. BDt.shur. 45 no.6:931-935 Je 160. (MM 3.3 -' 7) I* Botanicheekly Inetitut In. T.L.Kowrova A)mdemli nank SSSR, Leningrsd. (Pasture reeserch--Congresses)  MkTVEY&TA,, Ye.P. _nciples amd fragzapts of the olassification and typology of tht _~,*-egqtauon-, of MeSIM4, opd pab~uvm as exampUfied by the Soviet area. Trucir list. biol. UIP AN SWR rsb.270-15-122 061. (MRA 17:2)  ,*~ ~Aqle~.Po Sigbth InternatioW. GrasolmA CaWsmo. Bat. sbur. 46 w. 2s306- 3n P 261, (KM 3Js2) I* Botazichookiy insititut imo V.L. Kmarova Akademil mauk SSSR# Loninpad. qKs  HATVEYEVAV Yeg Sixth excursion of Soviet Baltic Bot&nists. Bot.zhur. 47 no,3090 11119 Hr 162, (MIRA 15-0) 1. Botanicheakly institut imeni Romarova AN SSSR, Leningrad. (Ealtic States--Botany)  14ATVEYEVA . YO.P. Scientific conference on experimental geobotany. Bot. zbur. 47 no.7.-:LO6:L-:LO67 il 162. (MM .15:9) 1. Botanicheskiy institut imeni V.L.-Komarova AN SSSR, Ieningrad. (Botanical research-Congresses)  MATWVAP Ye. P., kand. blolog. nauk Goobotanical Conrerence In Ruawda. Vent. AN SSSR 33 w.l: 87-ft Ja 163. (MM 2611) (PbyW;,vograpby-CoWeais9m)  NORCHAGIN, A. A.; MATVM.'EVA, Ye. P. "Forest types of the FOOP19119 Republic of Rumanial tv S. Pascovski and V. Leandru. Reviewed by I. A. Norchagin 1. P. Matveeva. Bet. 2hur. 48 no..3t455-456 'Ar 163. (MIRA 16W 1. Botanicheskiy institut imeni V. L. Kmarova AN SSSRj Leningrad. (Raman1a.-Forest ecolo ) (Pascovski, S.) (I*..mdru, V1.  EROGIS, K.; MATVEYEVA., Te.P.p red. fperennial cultivated pasturea In Lithuania; their fertiliza- tion and use) M4,,Oletnie kulltuMe pastbishcha Litvy; ikh Udobrenie i ispoll'zo~anie. Pod red. E.P.MaUsevoie Villniusp AN Lltovskoi SSR, 1964. 501 p. (MIRA 17:4) 1. Botanicheskiy !mdtitut AN SSSR (for Matveyeva).  MATVH'17,~ , Y e. I- .! 1: K AY f J,~ 1. Botanlche-,k~y inatitut ~monl V.11 . Komarovn AN  "Innovations In thr J:~p.ovenent of the une of rpeadcrws and materials of the Fighth Trit,3rrat-lonil ~'ongre.95 on Fasturec 1n,11 Meadows." Bot.zhur. 49 no.6:903-904 Jo 164. 2. DotanlcbesUy ini:t1tai. inieri-' V.1-Kcmarova AN SSSR, J,cninCr,,4,-1, (MIRA 17vIC)  MATVF,Y;,IVA, Y ~-'ergei Petrovl,~','l 49 no.8:122~--t226  MATRYEVA, Ye.F. Sev-enth botemlaal excursion W the Baatle states. B-.t~zhur~ 49 no.llt 1684-1687 N 16.1,. (M" ~ '41.8 F 1) 1. Botanicheski:r institut Imeni V.'L.Kcmarova AN SSSR, Leningrad,  MATVL-MA Ye. P. En2arged plemm of the section '~Hayfielda and Pa.3tures" of the Department of AEriculture of the 1-111-Union Academy of AgriculLural Sciences. Bot. 2hur. 50 no.2.:156-159 Ja 165. (MIRA lgz3l" 1. Botanicheskiy institut imeni Komarova AN SS3R, Leningrad.  HATVEYEVA., Ye.Ye. (Hoakva) I -Rale -'of women's bealth centers in the prevention of rupture of the uterus, Sov. med, 24 no. 7:137-140 JI 160o (MIRA 13t8) (UTERUS-RUTURE)  HATWWA, 76.7e., knid.med.nauk Ruptures of the uterus. Me& sastra Z2 1 (UTZRDS-RuPTURES) -.- 4~- - .~t m6j~123:45, W263 (HIRA 16:6)  IIATVEYEVA, Z. F.: Master Agric Sci (diss) -- "Biological aspects and certain Nommow 0 ' fr-oobl`eoms of the agrotechnology of potatoes under the conditions of the southern Balkhash area". Alma-itta, 1958. 19 pp (Min A.-ric USSR, Kazakh Agric Inst) (K%, No 10, 1959, 127)  COUNMY USM CATW= ,Cultivated Plants. Potatoes,# Vegetables i- Cucurbltm . 14 i. JOM. -Famd.. P 23* 195A. Nns 104667 Fi 'Al S MR. T] scientl c Research Bass, ACmd*MW Of SCIODCOSIX"ekh 81%. e The.Influ9nee of the Planting Deptb of Tubers on the Growth, Develolment'and Yield of Motatose in Southern Pribalkhashlye ORIC;, MB. KazBM Byly& Akad. khobarlary, Imy6'AN. Kaz55H. Ser. botan. pophi-oved.. 1958, vyp. I. 1l8-121 STRACT In 195~j and 1956, Planting depth of potato varieties cWaloirskiy, Ketadin and Bull b& on medium lomW sierozem . - -t areh Bam led- jlJ:L A 6eientiti iid c Reie h ihe and -of -tM ;'P an Ag iiii: -"Wx Ia_-~%-t e -Usubl- pl, ~'Mvsr M_t tUr W b * -the-abi during -~dsFith!i~r 13 ~Cme -'Thi. swore 6 it'.;the',,ajP' ~f- 25m,30' cm we t1i ~o aiwar, -thih t iis aiioth 10- the lilt- aitUrew- roe c br, 10-~1 140 -tth* -bol'a drti 16 Card: 1/2 51  NLWWWAO 2.1. Growth and developmental characteristics of potato varleties.differing In the earliness of maturity as observed in the southern D&Ucash Uke region. Isy. AT MuMik. 391. Ser, bot. I pochy. no.li22-35 159- (M 13:6) (ftlkwb Iske region--Potatoes)  HMSS., Yu,S;- MArVMVA., Z.I. Motto-plaut testing of various methods of parifying a" clectrolyt-es from.cobalt. TSvet. met. 34 no..11:29-34 11 161. WW, .. . / (MM 14:11) (Nonferrous I (CementaUcz (Mei;iiU--rw)Tww  1842' /017'W/ AYFTC L C SION NR: AP36056)1 8/0136/63/000/000/0069/0071 ~Matveyevaj Z. I.; Pregaj Yuo,So AUTHORS. 7 TITLE:. Application of modified norbente ford the selective extraction of Serman SOURCE: Tavetny*ye motally*, no,180 1963s 69-71 MPMTADS: gormaniuns tannic acid oluent,, hydrochloric acids zinc sulfatej Zn, Fe., Cu., Ods As, sulfuric acids silicon dioxides GO, zinc., iron, copper, cadmium, arsenic ABSTRACT: The method of extraction of germanium using sorbents MDdified with tannic acid has been examined In solutions containing Zns Go., Fe, Fe++s Cu, Cds 3102.9 As and R SO4, Several types of sor- 2 bents were examined, they include: Vofatite E. AK-ls and activated carbon of the cationic type. The results showed that the absorption of germanium on the Ah-1 sorbent is almost quantitative from a solu- tion of zinc sulfate, The capacity of sorbent for germanium abso.rp tion-depends upon the nature of sorbent, Its capacity Increases Card 112  ACCESSION NR*. AP3005601 with an Increase of gazzanium concentration, The desorption (elution) in made with 10% ECI and the total elution capaci* i's 85 t o 9.5% of the total germnium absorbed, During the elution of gammlimp the sorbent containing tannic acid -1e regenerated to approximately 80% of its capacity. Orig. art. has.- I table and I figure. ASSOCIATION: none SUBMT78D: 00 ME ACQ: 06Sap63 ENCL: 00 SUB CODE: M1 NO REF SOV: 000 OTBER: 000  IfATVEMA, Z.I. agglomeration 163-b  Fms, Tu.S*; ]a.AIVM".A -I- 164. Usirig owptlcm promomm In tbo WnmUUwW or noeorrms motalso. Sbor. nauch. trude GInUvatlwta no-23sZ3-M 965. (mrpA mm)  SCSIMKOVA, L.A.; MAMMA. BoM-#iap of corUdn teUurlub-o3Wgen cOlOmWD dwl"g Noting and fflntorlOg with *DO" Sbor. hamb. tr4d. mntvvei~mta nD.23s.W-334 965. ChMIC83L asp=U Of thO UteructIOD b*UFDM 90149 DUverf md mmoor toUwlclos vltb tufts , Sbar. nmm", tTW Gintmaimota no.23035-340 965. jMIPA W:12)  SERGEMA., Z.1,; HLTVMIITAY Z.M.;, VORONKOV,, M.G. l0riganosilicon fitheris of ketoximeo and of benuldehyde and o-bYdrOWbezml,lebyde oxi a. ZhurobAbim. 32 no.6aov- 2023 is 161. (MMA 3.4:6) 1- 1,SniMradsJL'LY gosudarstvennyy uni'versitet i Institut kbi-ii silika AN WSR. (SMcou orgAnic compouuds) (Ketones) (Benza3Aehyde) ft  SOEROVA, 0 ------ - - rolarographic determination of ultrIles. *hur. elbe khim. 28 me.11:2929-293*? N 158. (MIRA 12:1) I.Laningradaki:r inshaperna-skenamicheskly ~nstitut. 1,Felaregraphy) (Nitriles)  'UTHORSt Bobrova, LA, I., Xa!veYeva-KudB0hevf1, A- N, SOV/79-~6-12-31/41 TITLE: Polarography of the Thermal Decomposition of 2,21-Azobisisobutyro Nitrile in V:.ayl Buty! and Methyl Viethacrylic Ether Medium (,.Polyarograf:.ya termicheskogc razlozheniya d,21-azobisizabutiro- nitrila v vinilbutilovom i metilmetakrilovom efirakh) PERIODICAL; Zhurnal obsh.-hey khimii, 1956, Vol 28, Rr 12, PP 3297-3302 (USSR) ABSTRACT: A large numb.-r of papers published deal with the decomposition of aliphatic az) compounds which are initiators of the radical poly- merization (Refs 1-3); in these papers colcrimetric methods were employed and the rate of decomposition was classified also according to the qaaantit,~ of the separated nitrogen. The authors were in- terested in employing the pollarographi-_ method also to the de- composition process of the szo compounds, especially 2,2'-azobisiso- butyro nitri-Le (ABN). Besides the direct determination of the de- composing aZD compound in each stage of polymerization the authors intended to determine at the same time the nitriles as products of T,iie dtitic;tivation of the radicals of the azo compound, as well as the monowar in which the decomposition of the initiator takes place. The poliirographic~ duta obtained in this way can also characterize Card 1/2 the state of the medium to be investigated (in oxidized or reduced  SOV/79-28-12-31/41 Polarography of the Thermal Decomposition of 2,21-Azobisisobutyro Witrile in Vinyl Butyl and ldetbyl kethacrylic Ether Medium state) accordin& to the course of the polymerization process. The ,JeCOMDOSition eff the aitrile (ABN was carried out in two media which diffe-red considerably with respect to the inclination to form chains of the polymer. These two media were; vinyl butyl and methyl methacrylie etliez. The former is in a lower degree subject- frd to the radical pol.11merization with the initiator mentioned. In contraast with it methacrylic t3ther is polymerized most completely u.nder -the samo ~.oaditicns. Thus, the polarographic method of in- vestigating the process of rad:Lcal polymerization was made possible and the conditions for this mei;hod in the case of 2,21-azobisiso- butyro nitrile = its thermal decomposition in the above mentioned tovo ethers were ft)aad; this led to the determination of the velocity sonztant af it-R th-ezwal-deaompaaitinn~ There are 6 figures, 1 table, and 11 references, 4 of which s.re Soviet. ASSOCIATION; Leningradskiy inzhenerno-skonomicheskiy institut (Leningrad and, SUBMITTED: November 12, 1957 Card 212  Dr-mmv-v uvi~., k=d- tawm, muk; U'%TVLIZVV*Glmvp A*Pev Imh* - - .. - Uos ior 6naloG coVaters in oodellMr the vertical dynamics of the mot-4w cura of M electric traInse Trud7 kMT rw*P.07.- i1i ~i~f 965. ("mu, 1%:L)  77~, MATUTAra-UU, A.L. btructurs of the Taleozoic foundation In the Wysk-Barnaul doprassion. Trukv Gbr.-geol. Inst. Zap.-Sib. fil. All SSSR no.15:57-63 '56, (Altai Territory--Geolqa. Structural) (MM 11.01)  MA-T,VEYF_vSKAYR, )0j,-,_# KkTv3YAVSYAYA, A.L. Structure and devolopment of the Kolyvan'-Tomsk are w9ar Its Junction with the Salair ILAge. Trudy Obr.-geol. lust. Zap.-Sib. fil. AS SSSR nn,15.,77-92 156. (min 11:1) (Vbl Valltoy-tUology, Structural) (Salair Wee)  14-7'14 7_,/,I:~- A--d //I, //I. L/. MATVJffBVMYA, A.L. _ ~ ~_ ~'; W. W, - .. Structure of the present surface and loose ground cover In the northwestern Salair BlOge region. Trudy Gor.-geol. Inst. Zap.-Sib. fil. AN SSSR no.14,:129-144 156. (MIRA 11:1) (Salair Ridge-Geology, Structural)  fo P r IJ C L/ S KI Y-) 111IL4:11 ..' '4+5~7 - KATVMVSKAYA, .~t, Tectonicu of. the buried Paleozoic. bedrock ft the southern part of the Vest Siberian Plain. Izv.voist.fjj.A# SSSR no.4/5:52-61 157. 1. Zapedno-Sibirskly filiml Akadomit nauk SSSR. (Siberia, Westorn--Geology, Structural)  A UTHOR: Matveyev8kjx&'..4.j.'._, SOV/11-58-11-7/14 .... am- TITLE: On the Position of the Rudnyy Altay in the Strictural System of the Sayany-Altay area (0 polozhenii Rudnogo Altaya v strukturnom plane Sayano-Altayskoy oblasti) PERIODICAL: Izvestiya Akademii nauk SSSR, Seriya geologicbeskaya, 1958, Nr 11, PP 84 - 96 (USSR) ABSTRACT: The author describen the structure of different parts of the SayarW- Alta,~* areaq and compares them with the structure of tne nuunyy 4itay,, According to the findings of numerous goologists,the Rudn;ry Altay is a region of the development of small block struetures of the zone of junction of the Variscian synclinal syetem with the bordering Epi-Caledont- an plateau of the G.)rnyy Altay. There are 4 sets of dia- grams, I chart, and 20 Soviet references - ASSOCIATIONt Zapadno-Sibirskiy filial AN SSSR, g. Novosibirsk (The West- Siberitin Branch of the AS USSR, Novosibirsk) SUBMITTED: May 17, 1957 GeoLogy 2. Mountains--Structural analysis Card 1/1  HATISTEVSKATA, A.L.;_ IVANOVA, Te.F.; VAKEIMTRY, V.A., oty.red.; ZATTM. .; KUIKOV, N.Y.. red.imd-va; KRUGLIKOVA, B.A.. takhn.red. [Geology of the southern part of the West Siberian Plain in connection with Its oil and FaB potentials) Geologicheskoe stroanis iushno:L chasti Zopadmo-Sibirskol nizmennosti Y eviazi 0 voprosami nefi;egazoncenosti. Moskva. lid-vo Akad.nauk SSSR, 196o. 263 p. (MIRA 13:7) 1. Zapadno-Sibirakiy filial AR SBSR (for Matva vskaya, Ivanova). (West Siberlan Plain--Petroleum geolog_r (West Siberian Plain--Gas, Natural-Geology)  M&TVETEVSUYA- A-L- Geology of the surroundings of the Novosibirsk Reoearch Center, Geol. i geofim. no.10:347-153 162. (MMA 15:12) 1, Institut goologii, i geofitsiki, Sibirskogo otdeleniya AN SSSR, Novosibirsk, (Novo2ibirsk Rrovincv.~ology, Structural)  YA?tff=XIT. N.M. -, BDGATr=V. I.$.; XEMBOBOT, N.M. ~,.- - ~ A Ofour-balln lubricating oil testing apWatus. fkan. I Isn. sash. no.9:72-83 "54. (HIM ?:9) (hebricatiom and lubricants-Temt1us)  vsvoy with 4 to, rot.floall, velocitho p UP to vi k at vresmm Can dlux to on . =Q"837 lubrimflug fdm, b a lubetion a th1v_fdmA"vtcpc d -by frictlou~ , whkb s ;Wi u d tions of tli. er .. "I te3tb7z condidom A Mue C I Por bJbg 0. laueaft 4 4 ark Oll.tester With fatti,12.7-mM. balls of Is of re"lutim of, t T-P.ln -, covist- Wid kt,- olti!- mtOm - for betting thit OU- bath,- &I owtc baUx was to"troft 1 Oil was f4ed . the tipper fien ]jet in laotla fcw 50 "C'i d Produmd mftmtt . !. Aft" wasbing the app coaducted with froth on at a hiSher temp. - I offrtctlonaptnstttmp.pmdumcurynwhfL% itt 16wtf tif* but NbQW a 811UP b1ciew follow thL the oll "dent Ind i1 fift f in it P epe o V .o o " , y. mp- or olck ackis M not 64nse the at. A .01 wb they have been adoed,'wbkb mWaGe addi f ides t1W 1 6% . o an pu ng ; 43 i6afto Of frk"On ftm*lis PY" 0.1 1~ a l tint the I ai the x temp. Is const. Imid steel: ading of m a rewding out of thi tbt d1*W I he test was tong cocffl,. nabpmmh b yaampat, it but W It, to I'vZ 3my 4-1. d"":  SIMON.-,  MATV3YLTSKXY,,,#qpt4 - SHIKIN, S.T.,tekhnicheskiy I-;. -, "pv Mitrofanovich - .1 redaktor [Study of friction in instrument ball bearings] Issledivanle treniia v pribornvkh sbarikopodsb1pnikAffi. Moskva, Gos. nauchno-takhn. Izd-vo mambinot-troit. lit-ry, 1957. 33 Pe (NLRA 10:5) (Ball Ijearings) (Lubrication and lubricants)  A-Z"VC ""C V~ " //'/ j AU2HMS: Khmehobov, ILIL, N&tveyevskiyR-X-, Bogatyrev,I.S. 32-1i4W6o TITUS A Machine for Mm-Ining the Wear (of Samples) in Fomrd- and Back- ward Revolutia:i (Hashins. d1ya ispytwdya nn Unashivanlye pri vosyratno-vr"adbatell noin avizhenii) PMODICkU Zavodskikya Laboratoriyas 1957, Vol. 23, Nr li, pp. 1377-1379 (USSR) ABSTRAM The present paper describes a method of exazdrdng the wear of a binge-like oorstruotion, for which pur pose a speoisa machins is used the oonstructiorAl sob of which In described In the paper. The wa- chins was =4;bally constructed by MA.Khrushchev and later ooMleted by I.Se Poj;atj7w; In production it mw known " OX6-6". The main prin- ciple of the iadAns consists in the fact that 2 pairs or the parts of a tnotor as , e,g. i bolt and I sleeve are subjected to a hinge-like friatiaml wromento Alle oareftUy strained sand with a quartz am- tent of 9% iis conveyea on to the friction surface, The madhine consists of 2 systava Nbich are oomeoted with each other; aw of them is In a fixed position, the other Is pivotable on a one-arm axis and can be woi&tsa by noans of exabuWab2e, weights mg pressed against the other syvtsm by sons of a lever. The tint pdr of saWles Is telescoped so that the boli Is able to move freely In the xUave with a suffiolent Card 1/2 amount of play; It is ftatened Into the tint system of the machine in  32-1i-W6o A Machine for Imudninst the Wear (of Sazvles) in Porwwr&-sna Back"ard Revolution such a manner that the sleeve is olanped fast In the maohine and the bolt fzm the outside. The seoDn8 part of the saMles is alamped fast In the a&= manner In the second system, with the only aifferenoe that the bolt Is not in direct oonneotion with the base plate bat by means of a transmission, so that it in subjeotea to the pressure of the lever together with the (movable) eyatem. In thin veav the sanples were moved backwards and rorwarde 12.ODD times, while, as already mentioned, aand me fed into the epaoe between the bolt ana the Interior of the sleeve. After having boon moved forwards and backwards )+O.ODO times the samples were taken out and weighed. By means of the diagrums it we found that it the metal hLrdness of the pairs (sleeve, bolt) remained the same, wear me propvrtioral to the number of motions and to the hardness of the material or the swVles. If degrees of hardness were different, both o=ponents of iYear had to be taken into account. The experiment say also be carried out without sand with oil lubrioation, but In that oase it takes ImSer. There are 4 figures and 4 Slavio referenoes. ASSOCIATICIR: Xnglnefffts .::nstitute LN USSR (Institut mashinoveasniya Akademii nauk SS AVAIMLEs Library of Coqgress Card 2/2  28(s) plus I BOOK ZXPLUXTMOX SQV/V632 A15ademiya nauk aSSR. Xnetitut wasninovedeelys TrSftIYW I Ilene V --shl-nakh; Sbornik = (Triat-on am Veer In Xsehines; Collection 12) Moscow. Zad-wo AN US . 1958- 354 V. arrats, our inderted. 4,000 0491216 printed. Sd-s cm. nruabehov. Professor; ZS. or Publishing Nou203 N.A. Bablehavo Teah. Ed.s Te.V. Zaleakervej ZdLtCrW soardirav:6.N. Gotlyar. Professor. A.K. D-yachkov. Professor, Z.V. I'skly, Professor. A.D. surttayna. Candidate of Tachnicei Soleness, L.TU. Pruzhanskly. Candidate or Technical Selenews,, and U.N.Khrushehav, Professor. & PURPOeZo This book Is Intended for scientists, engineers. and technicians lit the field or machine asnuracture and operation, and for Instructors In schools of higher education (vuxos), Covowgi mda collection or articles presents the results Of 04V Investigations In the field of. wear, friction, and lubrication. 2he subjects discussed locluds structural oba"ges In the surface layer of metals In rrictlon, d.valopmout or ftletion-brake a4rerla2s, and theoretical Investisst;Lone in the neid or dry friction ano rr%czzon with boundary and complete friction. For the abstract of Saab article so* the Table or Contents. A bibliography of Soviet and non-Soviet materials on friction, wear and lubrL- ~Catlcegojt_4954-55 prepared ". U.0. V11 Idt Is in luded. Zrffdt of Beat on Fluid Friction in the, Men- ?-U-OM.Mhatins Film lei Ths, author Prfdsnt" the results or an everiment to determine the lubricating rIlm-bourAlary temperature In 9 GO&zIa1lY arranged shift and bushing at various Clearances and using two types or lubr2catLng 612. 2h&8& results am Compared with theory allowing for the relationship of temperature and viscosity. Golubevo ". Place Steady Flow of a Viscous Xnaompressibl* Fluid With a Variable Coefficient of Viscosity in a Bearing 205 The aut1wr presents a hydrodynamic theory of the lubrication or Lnrlnit*ly -long bearLng:s taking into account the hyperbolic relationship between temperature and viscosity. Calculating Temperature Distribution Through- .W."; -aring Plate or a Hydrogenerator 224 Th. author presents a method for calculating temperature distribution throughout the thrust-b*arlng plate. According Lo %h# author, this method a based -on a numerical method or transient heat-condItlan calculation Which makes It possible to determine quickly temperature distribution in bodies of Intricate Shape and With Complex boundW7 conditions. The method Insures a sufficient degree of accuracy. Korcychl"sklY. X.V. Possible Boundary Conditions or Nydrodynasla Motion in a Four-ball Lu~rlcant Testing Machine 242 The author presents results of theoretical inves- ugetlw%or hydrodynamic lubrication regines, gorcychlnekly, N.V. Corrections for the Article 'Stability or the ZqulM-F`fu-= rosition or a Fin an L"bricating Film" lftbllshed In the issue xi or *Trenlyo I I=** v zaashinakn% PD. 264-323) 286 .;PL&J,V.V;kLYL_R&j6. Friction Conditions to Testing ons a u -Ba4 Machine 288 The author pre:ents results lor #Xperi&ects conduc tOd to 4 t*Mln* the ubrLcuting conditions and type of friction existing between ball contacts In four-ball testing-machines. Lyubarskiy, I.K., A-a? _c ,~b lanko, and V.0. x* on , L - -10"SA renko the Pe.go-s-ew-of a zed Lubricants .195 Results Of an investigation of the perfomence of a lubricant containing n1g.r all with a 2-3 percent suirur content are presented.  SOV/24-58-4-29/39 AUTHORS: Matveyevskiy, R. M. and Khrushchov, M. M. (Moscow) ------------- TITLE: Importance of the Temperature Method of Evaluating the Lubricating Properties of Oils (Znacheniye temperatarnogo metoda otsenki smazochnoy sposobnos-bi masel) PERIODICAL: Izvesti-ra Akademii Nauk SSSR Otdeleniye Tekhnicheskikh Nauk, 19-28, Nr 4, pp 141-143 NSSR) ABSTRACT: Reply to the comments of G. V. Vinogradov "On the TemperatiLre Method of Evaluating the Lubrication Properties of Oils". The authors deal Individually with the thirteen points raised by Professor G. V. Vinogradov. At the end they summarize their reply thus: Dealing Eieparately with each of the points raised by Professor Vinogradov it can be seen clearly that the doubts raised by him are not justified. The new method was not developed as a competition to the methods based on the 4-ball machine and, therefore, there is no danger that this method will exclude other test variants at relatively high sliding speeds, methods which are known as well as methods which still have to Cardl/2 be developed. The purpose of the new method was to  SOV/a4-58-4-29/39 Importance of the T-amperatuxe Method of Evaluating the Lubricating Properties of Oils fill an Lmportant gap in evaluating the anti-friction properti,Bs of oils under conditions of boundary friction which could not be carried out by any other method. It is necessa:cy to accumulate data in various laboratories on the critical temperatures and other characteristics of the anti-friction properties of lubricating oils and only after such da-Ga are available will it be possible to evaluate the importance and the practical value of the new method. Quite apart from such work it will be necessary to continue work on extending the fields of application of the new method for elucidating certain problems raised by Vinogradov as well as various problems which have not been raised in his remarks. Card 2/2  SOV/122-58-5-7/26 AUTHOR: Wa4yevskiy R 6.-.,t'1-.,',Pandidate of Technical Sciences TITLE: ,-'rrasive Wear of Steels in Rotary Reciprocating Motion (Abrazivn, iznos staley pri vozvratno-vrashchatellnom dviz enii yy PERIODICAL: Vestnil: Mashinostroyeniya, 1958, Br 5, pp 31 - 35 (USSR), ABSTRACT: Laboratory and field tests were carried out at the Institut mashinovedeniya All SSSR (Mechanical Engineering Institute of the Ac.Sc.USSR) to study the abrasive wear of steels used in the hinge components of tractor track chains. The results of laboratory tests carried out on a machine designed by Professor M.M. Khrushchov (described in "Zavods- kaya Laboratoriya", 195?, nr 11) are reported. Sleeves of different steels are pressed against a standard pin (0.71o' carbon steel of 550-640 Brinell hardness) nith a pressure of 32.1 kg/cM2- The pin diameter is 30 mm, the sleeve clearance is 1.1 mm. Sand containing 961/6 quartz was fed continuously through the clearance. The sleeve was oscillated about the pin at the ratia of 260 C.p.m. A total of 20 000 cycleswas applied. The wear was measured by the loss of weight of the sleeve and the Din. Parallel tests were carried out witb and Cardl/2  SOV/122-58-5-7/26 Abrasive Wear of Steels in Rotary ReCiDrOCCtin,6 Vilotion without abrasive. The results for 10 steels are shown in Figure 2. With abrasive, sleeve and pin wear are nearly equal; without abrasive, the pin wear is much smaller. In both types of -uear, the best steel is the 12% chromiun Khl2 steel (Brinell hardness 606-E43). The much-used r,,anganese steel (type LG13) with about 1.03% carbon, about 11.69o' manganese and 0-75% silicon, treated to a Brinell hardness of 260-308 is leai3t satisfactory amon the steels tested under abrasive wear oonditions. It has feen stated that the hardness of the manganese steel increases with specific pressure. Tests at different pressures up to 200 kg/cM2, both with and without abrasive, show an almost proportional growth of wear with pressure. The same is true of chromium steel (Figure 4). In all tests, e4r-cooling prevented,a rise in temperatures. At all pressures, the chromium steel has about 1/4 of the wear of the manganese EUel. There are 4 figures, 2 tables and 2 Soviet references. Card2/2 1. Steel--Mechanical properties 2. Abrasion--Test results 3. Vehie'Le tracks--Materials  KffMzvSxm--R-tH. Yriation coatItione during oil tests to four-ball machines. Tren. t i5ne mashe 3oo 129288-294 138, (MIRA 11;8) (Imbrication and Nbricants-Testing)  XATFAINISHY, R,M* -, bmd. tekhn. nauk. I Abrasive wear of steels caused by reciprocating rotary motion. V'est. mash. 313 no* 5:31-35 W 158. (Knk 11: 5) (Steel-Testing) (Mechanical wearY  f6.&Z 0D 14 rL') AUTHOR: _.PjalveyevskL,~, TITLE: Comparative coatings on stresses 33718 L;/686/61/000/000/011/012 D207/D303 R~_ M. estimates of antifriction properties of some steel during dry friction at high contact SOURJES; Soveshchaniye po voprosam teorii sukhogo treniya i obra- zovaniya 1-hastits iznosa pri sukhom trenii. Riga, 1959, 163-175 TEXT: The author reports a study of antifriction properties of five coatings on steel, obtained by (1) oxidizing, (2) sulphiding, (3) phosphating, (4) heat treatment in MoS2 paste, and (5) depo- siting a layer of "Iltorlon" lacquer after phosphating. Oxidation was carried out by the author: 60 min at 138 - 1420C in a bath ~~on- taining 800 g/liter NaOH, 50 g/liter NaNO 3 and 200 g/liter NaNO 2 . Sulphiding was carr-4.ed out at NIIKhIMMASh: 180 min at 200 0C in 75% Card 1/3  33718 S/686/61/'000/000/011/012 Comparatice estimates of ... D207/D303 KCNS and 25% Na2SgO3* Phosphating was also done at VIIKhIMMASh: 40 min at 96 - 98 C in 22 g/liter 'Matefl salt solution. Coating with MoS was carried out at TsIAM: 180 min at 3000C using 'Mali-. kot' pas?e. The lacquer IFtorlon' was prepared according to the method supplied by the Leningradskiy institut polimerizatsionnykh materialov (Leningrad Institute of Polymeric Materials). Friction and wear were studied using a machine XT-a(KT-2) with four balls of 8 mm diameter made of WX6 (ShKh6) steel of 60 - 61 R c hardness; more details of the apparatus are given in the author's earlier communication (Ref. 1: Chetyrekhsharikovaya mashina KT-2 dlya opredeleniya kriticheiskikh temperatur plenki masla na metalle (Four Vall Machine U-2 for Determining the Critic~al Temperature of an Oil Film on Me-~al), Izd. filiala VVITINF, subject class 32, 2 1957, no. P-57-88). '.?ressures applied to the balls were 200 kg/mm and the upper two balls rotated at 1 rpm. Two series of tests were carried out on each of the five coatings: (I) At rDom temperature for 30 min; (H) at 20, 1709 200 and 3500C for 1 min. At room tem- perature a low rate of wear and a low coefficient of friction were Card 2/3  33718 S/68 61/000/000/011/072 Comparative estimates of ... D207YI3303 obtained for balls coated with MoS2 while phosphating followed by coating with 'Ftorlon' gave even better results: There was no mea- surable wear and the coefficient of friction was loweat. The other three coatings showed high rates of wear at room temperature and their friction coefficient rose considerably during tests, but in each case coating reduced the coefficient of friction relative to that of bare steel. At higher temperatures the oxidized and phos- phated coatings were no better than bare steel, but the other three coatings improved antifriction properties. The best all-round pro- perties of low wear rate and low friction at room and higher tem- peratures were given by MoS and phosphated 'Ptorlon' coatings. There are 6 figures, 1 tablg and 3 Soviet-bloc referen-,,es. ASSOCIATION: Institut mashinovedeniya AN SSSR (Institute of Ma- chine Construction, AS USSR) Card 3/3  (Moscow) Comparative. Tests of Some Plastics a Lubricant SC'V/179-59-4-24/40 in Friction With and Without PERIODICAL: Izvestiya Lkademii nauk SSSR. Otdeleniye tekhnicheskikh nauk. Me khanika i niashinostroyeniye, 1959, Nr 4, PP 150 - 152 (USSR) ABSTRACT: This paper gives some results of tests of various plastics according to methods previously developed for judging the gliding prcperties of metallic bearing materials. The polyamides AK7, P68 ard polycaprolactam; high- and low-pressure polyethy- lene and fluoroplast 4 were investigated. The tests were carried out an the modified machine of type KT-2 (Ref 1), with the steel ball rabbirg against the plastic sample with and without a lubri- cant. Figure 1 shows the frictional scheme, and the execution of experiments is described. The endurance tests at room temperature are described, and the results are shown in a 'table: the maxi- mum.value of the friction coefficient, and the sliding character in the case of friction of steel against the plastics without a lubricant at t-200. To determine the influeni-,e of the temper-  Comparative Tests of Some Plastics in Friction With and SOV/179-59-4-24/4o Without a Lubricant ature on the strength of the oil boundary layer in the friction of steel against plastics, the plastics mentio.ned were examined by the temperature method (Refs 2.3), Dl-oil, with an additlon of 0.1% stearic acid, was used as a lubricant. The test results are illustrated in diagrams in figures 4 and 5. Finally it is stated: 1) A difference was ascertained in the behavior of the plastics, vhioh differed by their composition and physico-chemi- cal properties, in friction against steel with and without a lubricant. The occurrence of friction jumps is characteristic of the friction of polyamides and polycaprolactam on steel with- out a lubricant, and in the case of lubricating with a nonpolar oil. :n th(. friction of' polyethylenes and of f-Luoroplast 4, the gradual gliding and the absence of jumps is characteristic of the work without a lubricant, and of lubrication with vario,.s oils. Fluoroplast 4 yielded the lowest friction coefficient in all cases. 2) An influence of a polar addition to the oil on the character of gliding and the amount of the friction coeffi- cient in friction of steel on polyamides and polycaprolactam, as well as an absence of such influence in friction of steel on Card 2/3 polyethyley.es and fluoroplast 4, were ascertained. 3) In the  comparative Tests of S:)me Plastics in Friction With and SOV/179-59-4-24/40 Without a Lubricant temperatu:re tests of the plastics with the lubricant D1, with a stearic-acid addition, critical temperatures for the destruc- tion of Vie oil boundary layer were obtained for the case of friction ~)f steel on polyamides and polycaprolactam (for each of the ma-erials tested). No critical temperatures were obtained for the f:~iction of steel on polyethylenes and fluoroplast 4. In heating up to the maximum test temperatures, almost equal to the softening point of the plastics, a quiet gliding and rela- tively loir friction coefficients were observed. There are figures, 'I table, and 3 Soviet references. SUBMITTED: February 27, 1959 i Card, 3/3  PSM I Wn 1XILOITATION SOT/9*3 xMla lWararentIlya po traftlyu I Isnolu v mashinakh. 3d# ; I D Ionait 1 lsaosesto3ftstl. Antirrlktslonnyyo materialy (Wear and Wear Rosletanee. AntIrrIetion Materials) Moscow, l9d-vo AN 3&U, 1960. 273 p. zrrata slip inserted. 3,500 copies Printed. (Saftoot Itas Trudy, V. 1) sponsorinLAgeneys Akademlys naulc 333R. Institut aashlnovodonlya. F Z P b i l X P ASP. .3 O. of u sh . W. Khrushebov. rofessor; l ng M. To. 12sbanov, and 3. L. Orplk; Tech. Zd. i T. V. Pol7akova. 1WOOSst This aanoetiQn or articles 19 intended for practicing angineare and research scientists. COVIRAUI "a colloatIM published by the Inatitut mashinovedonlys, AN 3331 (institute or Scionae of Machines, Academy of Soleness WSR) contains pavers presented at the III Vassoyuxnaya ton- fore Wye pa trenlyu I Izaosu v nashinakh (Third All-Union -- : Cmr raneo an Friction and Wear In Machines) which was hold rU 9-15, 1958. Probleas discussed were In 5 main areass All X namle ?hoary of Lubrication and 3aarinam drod . y y tunairmans To. W. Outlyar, Doctor or T*cMlcal Sciences, and A. 1. Dlysehkov, Doctor or Technical Sciences); 2) Lubrication and Lubricant Materials (Chalzmans 0. V. VLnogradoys Doctor of Chemical Selene*&); 3) Dr7. and Boundary Friction (Chairman: S. V. Deryagin, Corresponding Member of the Academy or Soleness OW, and 1. V. Xragellskly, Doctor of Technical Sciences); . M. Krushchov, 4) Veer and Vear Resistance, (Chalroam M Doeter of Technical Soleness); and 5) Friction and Antlfrla- tlan Platerlals (Ch"rmant 1. V. Kragellakly, Doctor of Tech- algal 8:10ness, and X. X. Zmvhchov, Doctor of Technical Selene@ . Chalzuan of general assembly (an the first end last day er this e"fareathl was Aeademiclan A. A. Blegonravav. I. Va. Imakenakly, Candidate of Technical Sciences, was $at- astIrle seers". The transactions at the conference were published In 3 volumes. of wMeh the present volume Is the ~..-rlrst. articles concerning the wear and-...- V81P "816tanes of antlfrletlan materials. Among the topics covered ares modern developments In the theory and experi- smastal science of wear resistance of materials, specific data an the wear resists-c as- Tarims eomb~*tinna of naterl-I . I WthOdN for Increasing the wear resistance of certain materials. too streets or friction and wear an the structure at materials. the "Ohniss Of the solzing of not&%$. the affeet of various typas of lubricating watersais on saising, abrasive wear of a wide forIft of asterials and couponeiits under many different sanditlons, modem developments In antifrIction materials, and the effects of finish maeftlaing an wear resistance. Many par- WOMIltles or* mentioned In the text. -References accompany most vz;~ let.,. of. 1.1 coatings Ila. 2, 1W. under the title ti. I. At A -Moo assistance of zaaawl Coatings of machine Parts 271 tile A il~ And iarliva6larb M.HiHae-e of Drill ft hinostr.', No. 7. 1959) 2TI Laboratory Investigation of the surtavieflV90-ketaft-h. iteele in the Cage, of Alternating jkOtKr7 Notion ('Vestri.mashinostr.". No. 7. 1959) 2TI Laboratory Investigation or Contact Paffg.M.1--f "R-11-Ing Surfaces ('Trenire I l9nof v sambinake, Bb. XV. led. AN SSSR) 2TI WN. Lu-R-Aj--C us;& f'D-gq to Crankshaft B..ri.g- 1959) avily ad:4 .:. a ('Vdstn.maohInastr.*, go. T. 2T1 Card 12/13  LlatilD OW 2500 83459 311221601000100610061012 A161/AO26 AUTHORt -Matveyevskiy, R. M.t Candidate of Technical Soiezxes TITLE: Investigation into the Friction of Plastics on Steel Without and With Lubxicanto 70 PERIODICAL: Vestnik mash'.nostroyeniya, 19601%o. 6t PP* 36-41 TEXT# Information Ls given on friction test results obtained at the Laboratoriya imnooostoykosti Institute, mashinovedeniya AD SSSR (Wear Resist- ance Laboratory at the Institute of Machines AS USSR), with methods develcpDd previously for frictiozi tests on metallic bearing materials. No speoial test techniques Are yet established for plastics. Three groups of plastics were testeds W'p2olamideeAK-7 (AK-7)pn-68 (P-68) and pA1.yqa]?rolactam;7 2) low-pressure 01 ethyl`eneXa~d ftoroglast-4 3) plastics with thermo- reactive resin baBee Fr T-2 Qg:2&Ztest machine previously described (Ref. 1) was adapted for testing plastics* The test consists in a hardened steel ball rotating unde:~ pressure on annular plastic specirien (Figure 1). Details of test techniquits are given., Oil~ oil with 0.1% stearic acid, distilled water, and tap water were tried for lubricants. Different Card 1/3  83459 S11221601000100610061012 A161/AO26 Investigation into the Friction of Plastics on Steel Without and With Lubricants behavior was observed with different plastics, i.e. the additive mentioned effected the friction of polyamides and thermoreactive plastics at low speed, but did not effect the friction of polyethylene and ftoroplast; in tests with heated polyethylene and ftoroplast smooth sliding and a low friction coefficient were Cletermined up to the maximum test temperature nearing the point of softerting or destruction of these materials. Thermo- reactive plastics -Ar4 (M-4), M7 M) and P49 (R49) in friction with steel, withAl (1D1) oil containinE, 0.1% stearic acid had a critical temperature limit at.1009 150 and 2000C respectively, and all of them became dark and brittle at more than 2500C- Polycaprolactam maintained smooth sliding up to 1056, the AK-7 to 12009 the P-68 to 1300. At 0-17 M/sec friction speed with oil as lubricant, the lowest and constant friction (0-045) was obtained with low-tressure polyet lene% Polyamides developed comparatively low friciion (0-07-0-09). Fta-6pllast-4 developed destructive wear under these conditions. In general it was concluded that the test methods used are applicable for determining the behavior of plastics with boundary lubri- cation'%Nand the effect of lubricants, but they do not provide aufficient Card 2/3  834C9 S/12 ~07000/006/006/012 A16i/AO26 Investigation into the Friction of Plastics on Steel Without and With Lubricants data for choeing the proper working conditions for plastics in plain bear- ings, bushings or other machine parts (i.e. which speeds are permissible un- der what load). Two metal 'bearing alloys were tested along with the plastics for compariaonz-01~4:-4-4 (GTsS 4-4) consisting of 89.12% cu, 3,85% Zn, 3.1% Pb, and 3.93%'Sn, and 4AH-lo-5 (TsAM-10-5), 85% Zfi, 5% Cu, and 10% Al. As can be seen fron Table (page 40), the critical temperature of some plastics vas also--th6 critical point for the TsAM-10-5, but the plastics are considerably less heat conductive than metals, so that their surface will heat faster thtn the surface of metal. The heat conductivity and mechanical strength of plastics can be increased by using them in combination with metal, e.g. in a thin layer on metal (glued on, sprayed or impregnated), or with a metal filler in the plastic. Candidate of Technical Sciences I. Y&. Allshits (Ref- 4) at TeNIITMASh is experimenting with bearing bushings having-W -thin nylon film applied to.the metal by glueing or by whirl sprayi;ig. Success with impregnated bearirLg materials is reported from England (Re.r. 5). There are 9 figures, 3 tables and 5 re- ferences: 4 Soviet and I English. Card 3/3  AUTHOR: R.M. 33009 S/66 3/61/00~/00C/00z//000 D04O/D112 TITLE: Friction of some -?lastics investigated in a KT-2 machine with, and without the use of lubrication SOURCEt Plastmassy kak ar,tifriktsionnyye materialy. Inst. mashinoved. AN SSSR. Moscow.. Izd-vo AN SSSR, 1961, 22-42 TEXT: The article presents the data of friction tests of eight different plastics carried out at the laboratoriya iznosostoykosti (wear-Resistance Laboratory) of IMASh AN BSSR (IMASh AS USSR), where the behavior of plastics as bearing materials is being studied. The article contains a detailed de- scription of the test techniques and observations, and the data arc, presented, in graphs and tables. The modified KT-2 (KT-2) test machine used in. the ex- periments has been descrIbed (Ref. 1: R.M. Matveyevskiy, Chetyrekhsharikova~a mashina KT-2 dlya opredeLeniya kriticheskikh temperatur plienki masla na metalle ERT-2 four-ball machine for determination of the critical temperatiire of oil films on meta ill Izd. Filiala VNITINF, tema 32, no. P-57-88, 1957), Card 1/4  009 S ~66'y 6 1 / c c o / o -1 c. /,--, o:3 / c c Friction of some plastics ... D040 ,112 In the tests, ring specimens of the plastics -were subjected to friction by means of balls of hardened steel and balls of the same plastic as the speci- men. The test temperatures varied between 20 and 3500C (depending on the heat resistance of different plastics). Tho lubricants used were nonpolar (D-1) oil, D-1 oil with 0.1% stearic acid, distilled water, and tap A-' water. The tested plasti,:s belong to three groupas 1) Polyamides - AK 7 (AK7), rl 68 (P68) and polfcaprolactam; (2)HA(ND) polyethylene and teflon; (3) Plastics on a base of thermoreactive resins with sulfite pulp for filler -Pr4 (AG4) with a phenol-formaldehyde resin base, M 7 W) with a phenol-- melamine-formaldehyde re.,iin base, and P 49 (R49) with a polyepoxy-polyamide resin base. Conclusionzi (1) In dry friction the plastics may be divided into two groups: (a) Polyamides and thermosetting plastics with high maximum friction-factor values (up to 0.4-0.6) and irregular variations of these values; (b) teflon and ND polyethylene with low and constant friction fac- tors. However, in the cuse of friction betvicen similar specimens of 1TD poly- ethylene, the friction factor was relatively high (0.3-0.4) and its variatien irregular, which is due to the adhesive property of this 11astic. (2) The frictional behavior of' plastics with different chemical cc-)m-Yositions and Card 2/4  33009 S/66 611COO/0001CO311009 Friction of some plastics D040YD112 physicomechan--*cal properties is different according to whethor polar or nnn- polar oil is used for lubrication. In friction between polyamides nnd steel.. polar oil results in smoDth sliding and a low and constant friction factor, but the polarity of the oil has no effect on friction between similar poly- amides. This difference may be due to the absence of an oriented boundary layer on polyamides. In the case of friction between similar therm03etting plastics and friction b,atween such plastics and steel, the polarity of oil has an effect. In friction between ND polyethylene and teflon and between these Dlastics and steel-, the friction is low and the sliding 9mooth. The addition of a fatty nc:.d to nonrolar oil does not reduce the friction factor value in friction between these nlastics and steel. In friction between similar specimens of TID polyethylene or teflon, the polarity of the oil slightly reduces the friction fRctor. (3) Hot toots with -D-1 oil containing 0-1'~2 stearic acid revcajed the existence of critical tcnT-crvtiif_-' for the oil* ia frction botwc.~-_-. steel anc' th~,rmosettinj.- -)lastico there weve no such critical tel- ,-cratures i!z friction -.n-I ITD polyethylene and teflon. These critical temperature vali-:~; fr,~ in a table. Smooth slidir.g with a low friction factor w-s obqnrv-,! in t-- casr- Card 3/4  3_31009 S/663/6 I/ c C;c I OOG1orj'-'j/r- Friction of some plasticE ... D040/Dll.,-. of polyamides and thermoEettinL -plastics at temperatures Ithe c--r--'*,ica., but at temperatures IiiE;h(r than the critical, the nature an.' -,f friction were the same aE. in friction between these plastic.,j and steel -iben oil without the additive was used. In the case of ND polycth,, r1ene anC. teflon,the sliding was smooth and the friction factor remain,."' 10-:; an'~ con- stant at temceratures uD to the maximum, i.e. to the softeni:~.~-- -,oin' cf polyethylene or the destruction point of teflon. There are tables, and 4 Soviet reforences. Card 4/4  S/883/62/000/000/017/020 E194/E155 AUTHORS: Aftty"evokiyt R.M.,_ and Lazovakaya, O.Vo TlTLE: A procedure for determining the critical temperature of the lubricant film during friction of steel con a plastic material in Pachine type KT-2 SOURCE: Metody ispytaniya nn iznashivaniye; trudy moveshchaniyal sootoyaveheganya 7-10 dek. 1960. Ed by 14.11. Khrusbehov. Moscow, Yzd-Vo AN S;S-,Rt i962. 1769-161 TEXTs Machine type KT-9 was developed in the Inatitut mashinovedeniya AN SSSR (Institute of Science of Machines. AS USSR). It in generally used with four-ball s1tecimens to assess the lubricating properties of oils at high contact pressures by the temperature criterion. In testing plastic materials$ strain of the contactihk surfaces may distort the results, and an the contact pressures are very high in a four-ball machine it was decided to increase the contact surface by causing a ball to rotate against an annular specimehAn which the inner edge of the ring in previously shaped by pressIng'Anto it a ball of the name s1p:e an that used In the test. With the.par-ticular test pieces and machines, the Cor,d 1/3  A procedure for determining the ... S/883/62/000/000/017/020 E194/EI55 .specific pressure lies between 25 and 600 kg/cm2. the upper bell ru.no at .1 repame (0.4 mKi per sec) and the temperature in the oil .bath which surroundatho speca .Lmen can be controlled in the range 20 -- 400 *C. Tels.to are made over the temperat1ire range without replacing the spe 'cimens, Changes in frictional force and bulk oil temperature are recorded. The width of the running belt in the ring is measured before and after test but does not usually alter in one-minute tests. . The lubricating property of thi! oil in assessed by the criticaL temperature at which the smooth sliding first changes-to stick-Silip motion. At this temperature the coefficient of.friction changes suddenly and approaches the value characteristic of -dry friction, Cutting slots in the ring to remove - wear - deb*rls~from the sliding area had fte,offect.. A study was made of the.critical.teinperature as functiowof specific load .for rubbing,paire which included relatively so t and hard materials. it wax,found that ihe critical temperature of the lubricant film is a .constant over a certain raugo'of specific -pressures; in the friction of hardened steel eXeinat copper and copper alloys it remaine.constant up to 250 kj/cm2; and in t~e Card 2/3  S/883/62/000/000/017/020 A procedure for determining the ... EIL94/EI55 friction of copper allo, y against copper alloy, up to 40 kg/cm2. The critical temperature falls somewhat at higher specific pressures, presumably bocause of plastic strain in the surface layer of the softer of the two materials in contact, causing local breakdown of the Aubricant film. There are 6 figures. Card 3/3  ro?, -0 ()?, ,.Ie T% V3. (0 ,e JOIN 0. las -'s lie I qO e e" N to ' & -T~ Oq, -ce ,.te je * * ?, J.P '410, e 040- t e'O:Y' *4 . ,,ela J~~) - () 00 ee Te .10 JF-f i; D -~ "Y ~ - v se, eO 5 & , -ql W -0 110 -oe e C. ~ 113. 0 -,,,.ee Oo ~e e - 7fp e OS oi~ e-)- e;"j -e e 01, V ef-e ,,,,,e "s ,me 0 ee- O"'e, e-e .4,e 00  S/711/62/015/1000/002/004 Effect of the temper i;emperature D207/D308 sleeve. Both the Vi^kers hardness H , and the resistance to wear 1/u (reciprocal of 1he loss of weigXt u due to abrasion), varied in the same way with the temper temperature T. As T was raised from 1800C, both HV and 1/u feil to a shallow minimum at about T = 4000C. Then both quantities rcse to a maximum at T -c6 55000 where their va- lues were the same as at T = 18000. Finally there wad a rapid fall of both HV and 1/u as T was raised to 65000:'at the Idtter tempera- ture 1/u dropped nearly to half its value at T = 18000. There are 2 figures and 2 tables, Card 2/2  KMSIICHOV, M.M.; SEZIENOV, A.P , 1;,kTVLYEVSKIY, LAZOIISFJ,,-Y.,',, D.V,; p . ; KOIXIZ.. BELOUSOV N.N ~'. Inveatigating lubricated and nonlubricated friction of anti- friction bronzas and braoses. Tren. i -izn. v mai3h. nool.7:36- 70 162. (MII:Vi. 17 -. 10)  MANEYEVSKY, R.M. . ~ -- -1 - Investigatini, t~e friction of somti ellic~-Organic IlastIcE5. Tren. i izn. v mash. no.17:112--120 1621. (ICIP-A 17: 10,  SEMENOV, A.P.; MATVEYEVSKII, R.M.; POZDhYAROV, V.V.; KHRUSHCHOV, M.M., prof., diAtor tekhn. nauk, otv. red.; LETNEV, B.Ya., red.izd-va; MA'.MMINA, L.I., tekhn. red. (Production technology and properties of fluoroplast- containing antifriction materials; basic principles of their manufacture] Tekhnologiia izgotovlenlia i evoistva soderzhashchikt-ftoroplast antifriktsionnykh materialov; osnovnye printsipy proizvodstva. Moskva, Izd-vo AN SSSR, 1963. 62 p. (MIRA 16:10) (Friction materials) (Plastics)  Y-47qpT~~,?- R.- M. "The critical temPerature of oil with point and line Contact munchines." report presented at the Intl Lubrication Conf, Washington, D.C., 13-16 Oct 64. Sr Sci, Lab Of Wear Resistance, List for the Study of machines, Mscow.  1~ ~ 1 ", ~ " . - - , , --     777777771~ ".1 .-j s. Z, OW A  F~4T(m)/T DJ Acc, NR, Ap6oi92-19 SOURCE CODE: un/o38o/66/000/002/0086/0090 AUTHOR; Matvzevsh~". M. JMoscow); Lazovskaya, 0. V. (Moscow) ORG: None TITLE; InvestiSation of the effect of varioun technological factors and temperature on the antifriction propertitts of solid lubrication coatings based on molybdenum di- sulfide l1 // 1, SOURCE: Mashinovedeniye, no, 2, 1966, 86-90 TAGS: antifriction material, solid lubricant, molybdenum disulfide, urea resin, friction, formaldehyde,, /aAa 4,_c 44,v-.do 011~ ABSTRACT: A report is given on tests of a solid lubricant baued on molybdenum disul- fide with a binder of ureaformaldehyde resin (VNII NP-2l2).JJ This study was undertaked at the Laborat, Of Wear Resistance if the State Scientific Research Institute of Ma- cbine Science7/7The coatings were tested on ShXh-6 steel subjected to various types of surface pretreatment. Lubricant coatings of various thicknesses with various ratios of binder to lubricant were studied. The experiments were done at room temperature with 8 mm bull specimens rotating at a rate of I rpm with an axial load of 11 kg which corresponds to an initial speAfic load of 200 kg/mm2. Changes in the force of fiic- tion were recorded during testing. Four spherical specimens were rotated against each 0  L 0377D-67 ACC NR, AIP6019219 other in tetrahedral formation under three types of conditions: 1. solid lubricant only on the upper sphere vit]2 uncoated lower spheres; 2. a lubricating layer on the lower spheres with an uncoated upper sphere; 3. all four spheres coated. The proposed method may be used for detenaining the effect of various technological factors on the antifriction properties of solid lubricant coatings under conditions of high contact pressures at various temperw;ures. It was found that the most effective surface treat- ment for steel operating under friction conditions in air is parkerizing or sandblast- ing followed by parkerizing ')efore coating with lubricant. Sandblasting is the prefer- able surface treatment for steel to be used under vacuum friction conditions. Parker- izing after sandblasting in these conditions impairs the strength of the lubricant coating at temperatures abov,~ 4000C. Variations in coating thickness betueen 5 and 15 microns has practically no effect on the coefficient of friction. Minimum binder-con- centration gives a minimum caefficient of friction for coatings of this type at room temperature. A coating basel on mol-vbdenum disulfide with silicone binder gives a low (3.0-4 mm Hg) coefficient of friction in vacuum up to 6000C Orig. art-.-Has: 6 fi- AolsuBm'DATE: 29jun65/ ORIG REF: 003 WB CODE: n  SOURCE CODE: IM/0380/67/000/001/0108/0115 ,!jatveyerkiy,_,~._,j[,. (Moscow); Lazovskaya, 0. TITLE: Temperature stability of antispalling coatings and protective layers in friction in various gas media Mashinovedeniye, TOPIC TAGS: metal friction, antifriction material,. iftti= antifriction coating, ==d:e~ friction coefficient, contact stress, protective co.ating, silver, cadmi~i, copper-, thermal stability AMTRACT: The Wear Resistance Laboratory at the Institute of the Science of Machines has investigated the antifriction properties and behavior of various protective and antispalling coatings in friction under high contact loads at a sliding velocity of 0 01 cm/sec and temperatures ranging from 20 to 700C in a vacuum of 1;-4-10-5 mm Hg or in an inert gas under a press.ure of 1.1 atm. The friction was produced by rotating a ball of ShKh-6 ball-bearing steel 8 um in diameter on top of three fixed identical balls. The rotating ball had a coating from various antifriction and antispalling materials, while the fixed balls had none; the contact load between the rotating ball and each fixed ball was 1.43 kg. Silver coating was found to have the lowest friction coefficient :ard _1/3 UDC: 620.162.4  ACC NR, AP7003636. in the widest temperature range: from a value of 0.25 at 20C, it gradually~ decreased to 0.08 at 500-550C and then sharply increased again to 0.-25 at 700C. Cadmium coating had a constant friction coefficient of 0.22 in the 20-200C range, but it increased sharply to 0.32 at 250C. The tempera-I ture-induced chaages in the friction coefficient of the copper coating were analogous to those of the silver: a gradual increase from 0.4 at 20C to 0.12 at 550C followed by an increase to 0.14 at 700C. The nickel coating had a friction coefficient of 0.4-0.6 and enhibited intermittent sliding in the entire investigated temperature range., The friction coefficients of ixolybdenum disulfide film over silver, copper and nickel coatings decreased to 0.07-0.1 in the 20-500C range, and that of cad- mium coating to 0.1 at temperatures up to 200C. An PloS2-base VNII UP-229 coating (sodium fjilicate film-forming agent) and a VDIII NP-213 coating (silicoorganic fUm-forming agent) had a friction coefficient of about 0.012 at 20C, which slowly decreased to about 0.005 at 500C; the coatings failed at temperittu 'res above 500C and 600C, respectively. Soft protective coatings on stee,. formed by parkerizing or sulfiding ensure friction coefficients of the order of 0.15-0.25 in vacuum at temperatures up to 500C; at higher temperatures, the coatings decompose. Electroless nickel plating of steel ensures in vacuum a friction coefficient of 0.3-0.4 at -temperatures up i:o 300C; at higher temperatures the friction coefficients increase sharply.. Borided layers on hardened steel had part:6cularly stable friction coefficl.ants (about 0-2) in vacuum in the entire 20:--700C range. Card- 2/3  ACC NRv AP700306 A borided layer on annealed steel had higher but significantly more tem- perature-dependeat friction coefficients.IOrig. art. has: 8 figqres and I table. [HS) SUB CODE: 11, 13/ SUBM DATE: 27Nov66/ ORIG REF: 010/ OTH REF: 008/ ATD ?RESS* 5115 Card 3/ 3  RAMMSOY, V.I. I Utilizing thin wnste heat of steam engines for drying grAir- 11nukn i -pered.op. v sellkhoz. 7 no.8:44-45 057. (Yiju 1C.: c)) 1. Starably prenodrvatell Altayekogo Bellckokho2ymystvennogo institute. (Grnin-Drying)  MATVEYEVSKIY, V.I. ......... Determining the expenditure of fuel during eng'Ln-- testing, Trakt. i sellkhozmash. no.3:4.1 Mr 165. (MIRA 18:!-)) 1. Altayskiy sallekokhozyaystvennyy inatitut, are  AUTHOR: Hatve:rko, A.P., Engineer SOV-118-56-9-11/19 TITLE: Reduc:.ng the Amount of Labor in Lumber Trailing Operations by Means of Winches (Snizheniye trudoyemkosti pri trelevke lesa :!ebedkami) Mekhanizatsiya trudoyemkikh i tyazhelykh rabot, 1958, Nr 9, pp 32-34 (USSR) ABSTRACT: Examining lumber trailing operations in swampy timber cut- ting itreas of the Belorussian SSR, the author draws atten- tion to the low labor efficiency. Detailed investigations have been carried out at the Luninets, Gantsevichi and Tu- rov litspromkhoz to find out the beat labor saving method for 'umbering operations. Consequently, the following tech- nological scheme was recognized to be the best for swampy timber cutting areas; for the cutting of trees the motor saw "Druzbba" should be used; the trimming of branches Card 1/2 should be done by manual labor; trailing should be carried  SOV-118-58-9-11/4,9 Reducing the Amount of Labor in Lumber Trailing Opera-ions by Means of Winches ou*; ty applying the semi-suspended method (polupodvesnyy sposob) by using a supporting cable with dual TL-4 winches; tho loading on the rolling-stock by means of the saw win- ches; the carting of lumber out of the forest on a narrow gaitge railroad. There are: 1 photograph, 1 graph, and 1 table. 1. Lumber industry--USSR 2. Cutting tool.s--Applications 3. Personnel--Performance Card 2/2  ACCESSION NR-. AP4030381 S/0145/64J60/002/0160/0173 AUTHDR: Balandin, G. F. (Candidate of technical sciences, Docent); Gini, E. Ch. (Candidate of technical sciences); 1~4~yeyka, Tu. ;N_(Aspirant); Sokolov, Ye. A. (Engineer); Stepano-v, Yu. A. (Candidate of technical sciences, Docent); Yakovlov, Yu. P. (Aspirant) TITI& The role of technological factors in producing.-strength in tbin walled castings SOURCE-. IVUZ. Mashinostroyeniye,no. 2, 1964, 160-173 TOPIC T&GS-. mechanLeal property, thin walled casting, aluminum, magnesium alloy, mold, microstanicturg, nonuniform porosity, hardening process, hexacholroethane, acetyline ABSTRACT: The mechanical properties of large-scale thin-walled castings used as panels were investigated at the MVTU foundry. Sample panels, 370 im by 35 mm and h to 1.5 mm in thickness,, were cast from various alumirium so magnesium alloys (e.g. AL2,, AL40 AS15,, MM5, etc.). Before pouring ibe iaterial, the mold was covered by hexachloroothane (C2C3,6) for aluminum alloysi and with acetylene carbon black for the Ma5 alloy, The aluminum alloy specimiens had a strength withIA the GMT 2665-55 standard. Card 3J2  A== :)N NRs A.P4030381 Lowering the specimen thickness to below 2 mm revealed a definite reduction in mechnical propeir~ties of the cast. The microstructure of the janels showed no observable effects calu.sed by minimum or maximum superheat condlitions. Howevers, there was a noticeagle inercase in nonuniform porosity for very tWt-walled specimens cast from V15 and AL19 allcys. There was considerable scatter in the measured strength of various specimens, caused-primarily by a nonuniform temperature distribution in the casting during the pouring of the alloy in the mold. It is shown that the melt 'temperature distributi3n in the mold, the method of pouring the melt in the mold, and the method of feed Lng the alloy during the hardedning process are"significant factors contributing to the nonuniformity between specimens and within the given specimen itself. A de'Ailed comparison is made between castiNg in sandstone molds and a pr'essing-out methos to enhance uniform temperature distributions in the molten alloy. In general, the two methods yield similar data scatter in the strength of the castix4~. Orig. art. has: 7 figures ASSOCIATION: none SbBMITTEDt 04Mar63 SUB CODEr MM NO REF SOV-. 02.2 2/2 Card ENCLt Ce OTHE:R- 010  )0293 AW Steoanon yuriy AlekseyevAch; .-Casting of thin- Slssunostr03 copies printe Monograph deb; Gini., Enriko Chelladvicb; Sakolov,, Yevgealy Yufty Pav1ov1cb aled stractures (Litlye tonkostennykb konstrukts:Ly) Moscow, Izd-vo dye",, 1956. 254 p. 111u9,, biblio. Errata.slip inserted. 4500 TOPIC TAGSt panel casting., pressure casting., metal casting 'PLWWE AND COVERW: This book Is intended for engineering and scientific research workers conceripd with problems of casting. It may also be useful to students of schools of bioer educt-tion specializing in machine-building. The book presents resulti of vor4 empleted by the authors at the foundry laboratory of the Moscow iffigber Technical - School I=. Bex=aa (MVTU) In connection vith casting of thin- wall structures'. On tle basis of theoretical concepts of the interaction betveen the casting an -Sov:Lvt studies concendng the _f the =o3A,, various Soviet and non the of wodficim Wmi-wan pml castizge are mnnarizeC ory "M OF (Abridipd): Forevord.-3 Part I. rining %be HDIA ~Cwd 2/2 Lw: 6a.74.m  ACC WRt. ch. :~Oiznme IntokustLon on pawl castings ch, n.: ceme, aspect of fte problem of fining the sold 28 Ch. me Dete Ion of conditions of casting under pressure 46 0 a - Do I hrv, teronation ol conditions of casting under low pressure. -- 75 C Ch*' V, Detendnation of conditions of casting under rising pressure -- 86 part. n. Bat Craoks __ 119 Ch& VI. Formation of hat cracks In pawl castings -- 119 Ch, VII. Inte"etion of forces between the pawl casting and the =old 3645 Ch. V137. Methods -of e2:bmlmting hot cracks in pmel castings -- 169 Paft n1. Tedbmloa of Costing ThIn-Well Pawls Ch. IX, Mecl~amlwa propbortles, precision., surface smoothness -- 189 Ch!, xe Practides In caslAng parts of tbin-vall pawls -- 223 References 248' so cm: W smu mm: nrob66/ mm mm W/ an mm o36/ 2/2  IKATVMOV, G. P., Candidate Ned Set (diss) -- "The functional state of the liver In patients with chronic tonsillitis". MImk, 1959. 13 pp (Minsk State Med 7net)p 150 copies (KL., No 24,, 1959,, 151)  ~MWEYROY GE-,-kand.med.nsuk,- ERODSKkU, F.P. Evaluation of a study of uropepsin. Zdrav.Bel. 8 rio.7.-51-53 JI 162. (MM 15:11) 1. Iz Wedry gospitallnoy terapii (zav. o.%.prof. G.1h.DovgyaUo) ?dnskogo mEditsinekogo instituta i Gomellskoy oblastnoy bollnitsy. (UROPEFSIN) .0-10  ZHAVRIDJ- V.M.; K0KC6H, A.A. - ------ Changes In the cardiocascular system in chronic tonsil- litis. Wrav. Bal. 8 no.6:10-12 je'62. (140A 16;8) 1. Iz kafedrj gospitallnoy terapii (zav. - prof. G.Kh. Dovgyallo) ltLnskogo meditainakogo instituta. (TONSES-DISEASE) (CARDIOVASCULAR SISTEM.-DISEASEZ)  I-- MATVEYKOV, G.P.., kand.ned.nauk IL - Mood prothrombin in chronic tonBinitis. Zhur. ush., nos. i gorl. bol. 22 no.1:33-35 Ja-F 162. (MRA 15: 5-0) 1. Iz kafedry goopitallnoy terapii (mv. - prof. G.Kh,Dovgya3-lo) Miubkogo maditsinskogo institutai (P.R(YrHRDMBIN) ' (TONSIM-DISFASES)  PA"MM, P. I. W Ade%v&te selectim, assigment and training of persormel are an indigpensable condItion for the fiLlfillment of the seven-year pUm. Zbelodortransp. 42 no-3:3-9 Kr 160. (min 13SQ 1. Umestitell ministra patsy soobobcbeniya. (14d1roads-Imployeem)   HATVL'MEV. P.I. --,: --l- - Creators of tec;mlleal progress. Zhel.dcr.t--anap. 46 no.12t3-5 '1 16-1. (MIRA IS?!) I* Zmasatitell ininistra putay scobahchaniya SSSR.