SCIENTIFIC ABSTRACT NOSOV, M. I. - NOSOV, S. D.
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CIA-RDP86-00513R001137320018-5
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S
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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JACCESSION NRt AP4043281
,content (polymer 3),and polymethylphenylsitoxans with a high phenyt-
igroup content (polymer 2). Triphenyl phosphate (1), dibenzyl di-
sulfide (2), sulfole (3), isohexylthiophane (4), a-butytthiephene (5),
~
2-acetonylmercaptothiophene (6). 2-mareepto-5-:ethyl-3-thlophene-
.carboxylic acid (7), 2-mereapto-S-ethyl-3-thenylddenimine (8), 2-
i.benzimidazolethLol (9). N-methyl-2-beneLmLdazolethiol (10). and
.chlorinated paraffins (C2S11SjCl to C20140"12) (11) were used as
additives. The additive concentration was taken as 1% sulfur in the
lubricant for sulfur-containing additives and 0.2% phosphorus for
triphenyl phosphate, The additives did not dissolve completely in
the polysilox3nes. but formed suspensions. It was proved that the
highest activity of the additives can also be displayed in the
emulsified or suspended state. The experiments were carried out on'
a four-ball apparatus at SOC and a.t a slLding velocity of 21 cm/sec
by a step-loading method with no change in the friction surface, To
determine the effect of the nature of the polysiloxane on the
effectiveness of the additives, polymer 3 was tested with additives,
2, 3, 7-9, and polymer 2 with additives 1-3, 9, 11. The antiwear
property of polymer 3 was not improved by any of the additives, Only
chlorinated paraffin improved the antiwear property of polymer 2 for
I- - .
c,3,-d 2 / 4
ACCESSION HR: AP4043281
small loads. Additives.which are highly effective in hydrocarbon
lubricants in respect to preventing setting of steel are less
effective in polysiloxanes. Their activity sharply drops in the
transition from polyethylsitoxane to polymethylsitoxane and drops
even further in the transition to polymethylphenylsiloxane-whicli
possesses thermooxidation stability. It was proposed that in the
1: decomposition of widely known addLtives-which determines their
effectiveness against the seizing of steel, a chain reaction is
'; inUtiated In which the basic components of the lubricating oils take
i
1i part. The effectiveness of the additives against seizing decreases
in lubricating media with increasing stability,in respect to reactions
with free radicals. The ineffectiveness of additives in the poly-
methylphanylsLIoxanes can be explained by this phenomenon. It is
,:noted that the activity of certain polysLloxanes as lubricating
media must be taken into account in studying the additive actfnn against
the seizing of steel in polysiloxanes. On the basis of comparison
of the experimental results for solutions of additi 'ves in polyethyl-
siloxane In air and in vacuum, it was concluded that molecular
loxygen influences the effectiveness of the addittves*tn different
ways, Orig* art* hast 2 figures and I table.
C a*fj
r-11 ~.' 3 / 4
ACCESSION NRt AP4043251
ASSOCIATION: 'tNKhS AN SSSR
SUBMITT&Dt 00
SUB CODE1 PP
ATO PRESS9 3084
No REP sovt 008
ENCW 00
OTHER: 007
4/4
NOSOV H.10; VINOGRAM, rZ.V.
Zfficiency of palysilaxanes as additives to petroleum
lubricants under various friction conditions. KMA. i tekh.
topl. L Mazel 10 no.3:52-54 Mr 165. (MM 18:11)
Irclov- Nor*
Three spindle twist counter. Takst. prou. 17 ao.4:43-44 Ap 157.
(eLread-Tantim) (MMA 10:4)
hmsof' ff.?.
Ulation of durability to claupIng length under the affect of
ropeataA strotch of synthAtic fiberse totho
takst.prom. no.4:28-37 158. OGRA IIIII)
I- KOGkOvskI.T tskstll'077 institut-
(Textile fibers, Synthatic-Testing.)
"HOSOV, II.P.
-
Two principles of testing, threads for f8tigILO. Takst. orou. 18
no. 7:51-52 JI ' 58, (Thread--Tonting) (HRA 11:7)
NOSOVP M.P.,, Cand Tech Sci - (diss) of met:zds
for studying the fatigue of syntnetic cord m Mos, l;59# 15 pp
(Min of Higher "ducation USSIR. 'Mos Textile Inst) 150 copies
(Mg 28-59t 12$)
- 69 -
KUXIM, Georgly Mikolayevichi prof .;.,ZGSOTt- insh.;
WATA, L.A.. red.; MUM, L.Ye.. takhnred.
(Fatigue testing machines for textile fabrics] Pribory dlia
Ispytanita takxtlllnykh materialov as ustalomt'. Koakwa, Goa.
zumchao,-takhn,Izd-vo lit-ry po legIcoi prom7shl.. 1959. 107 P.
(KIU 13:1)
(Textile fabrics-Testing)
MOSOTO *.P.
Iffect of repeated stretching of x"thatic fibers on thair
residual cyclio deformation In breakage. rsir. vys. twhob. KAY
takh. tekst, Prom, no-3:45-53 159- (KMA 121-11i
laKaskovsk1jr tekstilln" InstItut,
(Textile fiUrse Oruthetto-Tasting)
i~Ayi~~ I ze Po
Static defor:.-ialion of synthetic
(la:Ut 17:10)
1. Kiyovoldy 'Alial Voosopimogo nauchno-isoledovatellskogo instituta
i'll'uss-Welmo"o vololma.
u
110SOV. R.P.
Effect of repeated stretching an some uschanIcal properties of
synthetic card filaments. Xhla.volak. no.4:47-50( 1 59.
KIRA 13:2)
lo WisuoyusW nanchno-looledovatellskly Institut lalmestTennago
vololma.,
(Textile fibers. Synthetic - Testing)
S/138/59/000/011/008/011
AUTHORt Mosor, M. Fe
TITLEt On the Durability Kochanism, of Synthetic fiber Cord Threads
PERIODICALt Kauchuk i Rezina, 1959, 110- 11, pp. 40-43
TEKTc A relationship is derived here between the nuaber of cycles
,A the constant static load.
of repeated expansions endured by the thread "
The threads under investigation were &_21proneFthread with various e an-
sions, (10-0 and. 1&1.5) and a highly-durable thread. made of TeryL neva,
polyester fiber. The experiments were made on a vertical pulsator of
Borodovskiy's types At any static load there is a durability limit for
each thread. Under repeated cyclic expansions of the cord. threads, a
specific durability limit corresponds to the constant static load. With an
inereaoein the constant static load thodurability limit of the investi-
gated threads deareaBes changing exponentially (Yigure 5). Throe zones for
the behavior of the materials were nGtedt according to which the durability
of these materials can be evaluated; a change in the durability limit
according to the static load in these zones points to the successive change
Caxd 1/2
STOTATIVMYA, S-T- 1STOiatYtstk8, S-2-1; SXWM=OTA. PX [Serhiiankova,
PXI; "LUSHMA, I.K. Effalushkina. 1.K.]; rEDOTOTA. Too.;
Kosovo Napo; Smnro B.010; IT, A.T.; PRIEW10T. T.F..
UCV'o -it VMsk; EIKKRDMI. D.L., red.; GLUSHKO, G.I. CE[Lushkof Hole]$
takha.red.
Exconomy of Dnepropetrovsk Province; statistical colleatioal ffa-
rodus hospoderstro Dnipropetrovalkol oblasti; statystychnyl sbirnyk.
Daipropetrovelk. Dnipropetrovalke knyzhkove vyd-vo. 1960 221
(Kia 13:123*
1. Dnepropetrovsk (Province) StatisUchaskoye upravlonLys.
2. Daspropetrovskoye oblactno." statisti0haskoys upravlenlys (for
Swoyatitskays. Sergeyeakova. Galus&ina. Yedotova. Nosov. amf1k,
Ferederly). 3. IfachalOnik Daspropetrovskago oblastnogo statisti-
cheakogo upravleaiya (for Prikhodlko)*
(Dnepropetrovsk Province-Statistics)
S/183/60/000/004/004/005
B004[B058
AUTHORS: Gojkhman, A. Sh.
TITLE: Comparison of Testing Methods for Threads by Repeated
stretching
PERIODICAL: Khimicheskiye volokna, 1960, No. 4, PP. 42 - 48
TEM. The comparison of three testing methods is.the authors' aim:
1) with given load amplitudel 2) with given absolute deformationo 3)
with given relative deformation. In the came of 1), the maximum Load re-
mains constant: Pso - coast; In 2)9 PF ~ coast, and likewise in 3),
Pr i coast (Fig* 1). for the three methods, the authors write down equa-
tioas for the maximum deformation. These deformationsare compared in
Fig. 2. The values obtaime& by methods 2) and. 3) are transposed into the
values of method 1) (Fig. 3). The corresponding parameters P.O. and P11
a
are found for the parameters P6 and PrI and the equidistant curves 1, 2,
3 (Fig- 4) of the function P a - f(n) are obtained for the three methods,
a being the auqber of load cycles. An analysis of the curves follows on
Card 1/2
Comparison of Testing Methods for Threads by S/183/60/000/004/004/005
Repeated Stretching B004/BO58
the assumption of an exponential function (Fig- 5) and of a hyperbolic
curve (Fixa. 6-10). The conditions for equidistant curves are found
for both cas*%. The authors reach the conclusion that all of the three
methods give comparable results, which can be quantitatively transposed
into the values of another method as long as any parameter (amplitude
of tension, amplitude of absolute deformation, eta) remains constant V/
during the test. Equidistant curves then result (Fig. 11). The authors
mention a paper by G. N. Kukin. There are 11 figures and 5 references:
4 Soviet and I US,
ASSOCIATION: Kiyevskiy filial VNIIV (Kiyev Branch of the All-Union
Scientific Research Institute of Synthetic Fibers)
card 2/2
Nofs!Vlt, M.P. VDOVICHMO, A.A.
Effect of tim and tmporatsire, on tke spontaneous *)dif IcatIbn
of polyamiM fiber anlirotrop7e I zv.vyx,.ucheb. say.; tekh.tekst.
Prm. no.3t23-26 161. (KM 14M
1, KiyovskLy filial Vaesoyuzncgo nauchno-issledavatel'skogo
instituta iskmastvannago volaknigo
(Textile fiberag Synthetic)
MMOV,, Wa$ DONDIMO L.
gff**t of the durrtion of the xaturiaW process on the orientation
and properties of caprom Maments. Mda.volok aoAM-73 162.
(MMA 150)
I* Kiymkly C1,11-1 Tmemoyusnogo naacbno-Isoledovatelliskogo
institata Iskumstyamogo volokna.
(wl.*n)
KOSM, K.P.; BABICIEVA, V.9.
~-
rrroversiblUty of thread deforwtion caused by fatigue. Izv.vys.-
wheb,sav,; tekh.tekst.prow. no-591I,16 f62. (MM 15C11)
1. Kiyavekiy flUaLl Vc;aaoyuznogo nauchno-Usledovatellskogo Instituta
L&UNIStyennago, volokna.
(Textile fibers-Testing) (Strength of materials)
MWS=Vt V.A.; ALEKSCYEVA, U.S.; ~~ ~M-P-
16mLewing birefringence by the thickness of the fliber. M10.1rolok.
no.2t4C-43 163.' PURA 1695)
1. Itauchno-issledovatell Wy institut, shinnoy progyablennosti (for
Berestnev, Alekseyeva), 2. Kiyevakiy filial Veasojmznogo nauchno-
issladovatel'skogo, instituta Lakusstvennogo volakna. (for Nosov).
(Textile fibers-Optical properties)
9
KOSW-t-X2,;- VDOVICHMOO A.A.; FAKHOM3VL,, L.M.
Effect of the conditions of the sodium on Bpontaneoux changes
in the aniffotropr of unoriented nylon fibers. lavoys.uchob.
SAV.; tekh.teksteprouo no.2t19-23 163. (KERL 166)
1. Kiyevskir filial Vaesopnogo nauchno-iseledovatel'sk(#0
instituta Iskusstvennogo voloknao
Mlon-TestIng)
Kosovo N, PO
StudylU Va spl=ing process of caprou filaxents. Mao voloko
MOM-% 163* (MA 16:7)
U "Wkiy filial Tmegoymnogo nauchno-iff4ledmateltakage
IneutufAINkmatTonnogo, Valokna.
WSPy'-M.P.; BEFSZTIEV, VA.
Hacking down of capron fibers. VysokomsQed. 5 no.7:1080-IM4
il 163. Cum 16:91
1, KiyevBkiy filial Vxaaoyuznogo naucluio-issladovatellskogo
instituta iskusetvennogo volokna i flauchno-iasledovatel'skly
institut ahinnoy promyshlonnosti*
(Nylon-Optical proWties)
~070~,~,!P*-ZUBCHZMKOP L,V.
Zffect of twist on the mechanical properties of capron card.
Knuch. L rot. 22 no-5:30-35 Vq 163. (KERA 26:7)
1. Kiyevskly filial Vaesoyuznogo nauchno-issladovatellskago instituta
iskusstvannogo volokna.
(17ire fabrics--Testing)
U,
G.N., doktor tekhn. nauk, prof.,
NIOSUVI. ~ I;pj
Alk j,FpxIa-
retsenzent; BUZXAKGVA, iuzh.,, red.
(Dynamic fatigue of polymer threads] Dinamicheakaia usta-
lost' pollmerrqkh nitei. Kiev, Gostekhizdat USSR, 1963. 195 p.
(VIRA 17:5)
NOSOV, M.P.
Irreversible, reduction of the strength or syrt,~tic fit\e-. z;
during twisting. Khim. volck. no.4t47-51 164. fMIRA l8s4)
1. Kiyevskiy filial Vaesovuznogo nauchno-issledovatellskogo
instituta iskusstvennogo volokna.
Ho3ov, F"
S;re.nl.ing of eynthstl-s filaments du:llne proccs!!.
-FA I r
Khim, volok., nc.2~4r~--48 165. N.
dy f-Ill-al Vsesoy-jznogc
Klyevsk
institul,& imiru-3stronnop: voloirra.
8 M.P.; TRFTOYAKCV, Yu.P.
GOYKINMAN; A.Sh.; No~(w
Structural transformations occurring during the extr-w,.'cn if'
capro,,A fibers. Dim. volok. no.6:54-60 165. (MIRA 38:12)
1. Kiyevskly filial Vaesoyuznogo nauchno-ispledovatellskogo
imUtuta islnisatveanogo volokw. Submitted flovember 112p
1964.
GOYKHMANP A.Sh,; j~ ~V~,B," TRPrIYAKOV, Yu.N.; CIE1141K, P.G.
Stretch machanijim of capron f1bern. Vysokvm. Eoed. 7 no.D:
1877-1883 N 165. (MW 1911)
1. Kiyevskly- filial Mauchno-isaledovatellskogo Instituta Iskusst-
vennogo volokna. -Submitted Decotnbcr 1, 1964.
MSOVS 14.P.
Mechanism of the strength reduction In s7nthetic fibers durl;ag
the twisting of complex yarn. Tekat. prom. 25 no.5c24-29 My 165.
(MIRA 18:5)
1. Machal'alk laboratoril Klyavakago filiala Vseaoyuznago
nauchno-issledovateliskogo Instituta lskusstvennago voloknia.
-,.--uchnyy Zotxudnik, kaM. tek,hri. nauk; ZAPOLISK-77, D.G";
npu~7r,jvy zotr-udnik; 11-ITKTILINA,
L.V., nauchny3 aotrudnik
Preventing the strength decrease of nylon filatrients durind
twisting on a ring tvistlar. Tek--t. rxom. 25 no.8:70-74 A.0
165. NEU 18:r')
1. Kiyevskiy filJal `V'--esoy-u2~nog,,)
iutituta iskusstvennogo vclckra.
L 2-1334--(A EWT(M)/EWP(j)/T IJP(C) RM
----d/61"0/65/007/011 '1877/1883"
9
iACC NRs AI?6oo896-,. SOURCE CODE1
G
AUTHORSt Go A.'Sh.; Hosov, M. P.; Tretlyakov, Yu. N.;- q1eMAL V.
_y
ORG: SoierltiftcC hesearoh Institute of �nthetic Pibels, Ki2v Mirigio"n :yevskiy .1
a soledovatellskogo institute, iskunstvennogo vol
fili I ;~,--Uohno-i
TIM: Stretching mechanism of caprone fibers (10th report in the series "Study ofl -1
stretching pro --)see in synthetic yarns")
--.BOURCEt Vyeokomoleku1yarnyye ooyedineniya, v. 7, no. 11, 1965, 1877-1883
i'; TOPIC TAGSt synthetic fiber, caprone, x ray diffraction study
ABSTRACTs The.relationehip between the behavior and moohanical propertica and
between the crystallinity and crystallite orientation occurring during ot-..*etching 1
of caprane fiber was investigated at various temperatures. The study involved an
x-ray diffraction method described by.A. Sh. GoykJu=, It. P. Hosov, and YIL. P.
(Kh1r. oh. volokna, 19659 No. 6). It was established thaf the orients-
ition of monoolinio crystallites, which is characterized by the average orientation'
argle T, is practically completed at X (elongation multiplying factor) - 3 to 3.2
Pig.1)f Crystallinity of the polymer increases with enhanced degre,e of
iCardJ? UDC: 678-01153+678..675~ 1
L 27334-66
ICC Ri. AP008965
A
0 mos
mod
rig. It Avorago orientation anglet'
as a function of the stretching
multiplying factor 'A at various .~10
temperatures$
4
stretching., A definite cogootion was found between the magnitude of equilibri~
axial swelling and fiber structure. Fibers with X from 1.0 to 2.0 stretch while
iswelling, Fibera with 7% 2.0 -to 2.5 do not change their linear dimen0ions to anyl
tpracical extent. When > 2-5t only shrinkage is observed, Orig, art. han; 6
'figures.
SO CODEt WsIll SM DATEt OIDec64/ ORIG Mi 005/ OM REF, 003
Icard
2/Z4
L 18413-66 W(m)/Ewp(j)/r rm
ACC IlRt AP6003418 SOURCE COri-;: trt/0190/66/008/001/0094/0097
AUTIHORS i Goykhman, A.' Sh.; Osinina, L. A.; Osinin, 5, G,; Nosov, M. P0
ORG., Kiev Branch of All-Union Scientific Research Institute of Artificial
Fihers ( vskiy filial vsesoyuzn0go na chno-lssledovaEallskogo Institute,
Iskmityennogo volokna)
TITIZt Correlation of the mo'cromolecular orientation Index in fibers, doterminod
by x-ray and acoustic measurements-
SOURCE: Vysokomolokulyarnyye ooyedineniya, v, 8, no. 1, 1966, 94-07
TOPIC TAGSi polymer, polyamide, polyrimide compoundo cnprona, voleculnr structurev
macromolecule 1>
ABSTRACTi The orientation indices for palycaproaridde fiber stretched at 180C
were determined ae a function of degree of stretching. by x-ray meLhocs to estab-
lish a correlation between the orientation indices of =cromoloculas in fibers
determined by different methods. The acoustical data were obtained and tteated
after the method of W. W. Moseley (J. Appl. Polymer Sci., 3, 266, 1960), and
the x-ray data were treated after J. Corny (Faaerforach. und Textiltechn., 15,
Card 1/2 UDC: 678.01:53 1z
L 18413-"
Acc im, Ap6oO3418 0
321, 1964),. The experimental results are presented graphically (Soo Fig. 1).
rig. 1. Dependence of the orientation factor on the
degree stretching. 1 - x-ray data (fO);
2 ultrasound data (o