SCIENTIFIC ABSTRACT PETRUNICHEV, V. A. - PETRUNIN, V. I.
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CIA-RDP86-00513R001240620014-1
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RIF
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S
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100
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June 15, 2000
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
21089
3/13 61/ooo/oWooi/on
Investigating the cutting with are plasma ... A006/A101
power and the cutting properties of the plasma jet which are determined by the
are current and voltage, gas ccnsumption and composition, length and diameter of
the nozzle channel and the distance of the nozzle from the surface to be cut
(Fig. 2 and 3). Maximum efficiency of plasma arc cutting is assured by maximum
possible welding current and arc voltage, least possible distance of the nozzle
from the surface of the sheets to be cut, minimum length of the nozzle channel,
and optimum gas consumption and nozzle diameter. The cutting rate can be in-
creased by using gases or gas mixtures of high ionization potentials. Comparison
data on the cutting rate by various methods are given in a table. Plasma are
cutting with a jet singled out fr6m the cathode flame can be employed for cutting
various non-electric conducting materials, such as refractory bricks, concrete,
granite, earborundum etc. The process can be performed either manually or auto-
matically. According to data submitted by engineer V. P. Norenko of Kramatorsk
at the Moscow Weiding Conference in March 1960. the method assures satisfactory
properties of them out when preparing stainless steel sheets for welding. On the
basis of IMET-104 torch, an improved design - the WMr-106 (IMEr-1W) torch
was developed in 1960, intended for automatic and manuaa cutting, at 300 - 350
imp current and 15 kw maximum power. The water-cooled adapter contains a screwed-
in nozzle with a conical contact surface and threaded lower section (Fig. 6).
Card 2/ W
? luo -Y
S1 135/6 I/ow/005/00 1/011
Investigating the cutting with arc plasma ... Aoo6/Aiol
The minimum wear of the nozzle is 0.01 . 0.02 g/kw-hr when using argon. The t6rch
and its connection system are shown In Figures 5 and 7. It can be employed for
metal cutting with both an arc singled out from or coinciding with the cathode
flame. The cutting process is stable and no 3peclal equipment is needed. The
torch can be mounted on any oxygen cutting assemb"y and will, prove most suitab'Le
for manual cutting of up to 10 - 15 mm thJck metals.
Figure 1:
Schematic representation of plasma cutting process:
a - with plasma jet singled out from the cathode flame; b - with plasma jet
coinciding with the cathode flame; 1 - electrode; 2 - nozzle; 3 - cooling
Figure 1: water; 4 - cathode flame; 5 plasma jet. E - current
I- feed source; I work piece; I sinking of the arc
Z rej I
into the channel
7
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ACC NR: AP0036450
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AU-,-ti,)-r%' :Putrunichev, V.
ORG: none
T I i " E P" a s;, spray it ip ll,cL I. wd of proL, rui
A."
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meLal -,(,wder vefractury meLa, pow,.er -,-O,!ii( L "r, rf,
r L t r W e C 0!
Lhe spi,croidizing LaKes pi-ce ir, a
Sus-pended' -in a sLrea-,-.i n-- an iner-, ~a~ w,- v -e o r I 7),r- r"1?5
is a t i o. a S L j 6 i ra n n u
mai.erlais may be prooucc,~ at, a ri i,~;, vapo r i L i ~~n o: 1i, :,',G,i r
powders in tiir, plasma are. Orig. iir-.. ...is i,-A-, v s
S'~-~,, u~",:jE :d 3 / 1)"bM i j06 / Oll ili.F:
ATD PR--~SS: 5 ~-j8
Card 1/~ 6u~j : 6 21 . 7 6 266'~
TZROKHIN. A-A- (Moskva); PETRUVI - IMoakva)
Kinetics of the melting process and electrode metal transfer during
arc welding. Izv. AR SSSR. Otd. tekh. nauk Met. i topl. no.2:'IC-7'7
Mr-Ap '59. (MIRA 12-6)
l.Institut metallurgii All SSSR.
(Electric welding)
PZ=mICM, T.A*, izzk6
Distribistion of hot are flow In welding under flux. 9var. p-rodsT.
ao.4t19-22 Ap 958, (MIRA 11 t4)
1. InstItut notallurgil imni A.A. B&.vkvva AN SSE.
(Blectrio welding)
ACCESSION NR-. AT4026353 S/0000/62/000/000/0174/0180
AUTHOR: Petrunichev, V. N.
TITLE: Alternating current power supply sources for addressing systems
S0nCE- Konferentsiya po obrabotke lrformatsii, ma-shinnomu perevodu i avto-
maticheskomu chteniyu teksta. Moscow, 1961. Vy*chislitellnaya i informatsionnaya
tekhnika Wormation processing and computer technology); sbornik- materialov kozi-
ierentsii. Moscow, 1962, 174-160
TOPIC TAGS: power supply, parametron, alternating current power supply, curcuit
de:3ign, memory, addressing
ABSTRACT: The author points out 'he inti-rest in the recent use of the frequency or
phase of HF harmonic oscillations for tl~c tranbmissior, of i o ation con puter y
af rm. in i s a
tems and in the feeding of logical and memory circuits ~vith short a-c or 11F voltage
bursts (radio pulses). The advantages of this system are briefly discussed; particular
attention is called to the parametron - a new logical and memory element recontly in-
troduced into computer engineering. Some of the features of this device are noted.
Described in the body of the present article is a radio pulse food system for the magnetic
address system of a long-term 6apacitance memory device (DEZU). This pulse power
Card 1/2
ACCESSION NR: AT4026353
supply unit was developed at the Laboratoriya elektromodelirovaniya (Laboratory for
Electrosimulation). The system consists of two radio pulse"sources. Source 1 provides
radio pulses with a filling (priming) frequency of 150 ke and is used to feed the input
address system of the long-term capacitance memory (DEZU), by means of which sys.-
'Lem the pulse is doubled in frequency and fed to one of the cards in the unit of the DEZU.
In this manner, all the information recorded on this card is read out. The required word
is selected from this information by means of the output address system designed with
parametrons. This system is powered by source 2 which furnishes pulses with a filling
(priming) frequency of 600 kc. Both sources are close-coupled in frequency and phase of
oscillations, with the driving or master source being No. 2, which synchronizes the
pulse frequency of source No. 1 in a mode of division by 4. The system operates with
delay, being triggered by a pulse received from the machine control unit, upon access to
the DEZU-The method of operation and some performance data are given in the article.
Orig. art. has: 4 figures.
ASSOCIATION: None
StMIVUTTED: 00 DATE ACQ: 1GApr64 ENC 1~ 00
SUB CODE: IE, CP NO REF SOV-.'003 OTHER: 000
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EXTRUNICHEV, Ye.
Hungarian encounters. Mast.ugl. 9 no.9:26-27 VFZ.
~MLRA 13:10)
(Hungary--Coal miners)
_4_
A., f/724/611000/00010141020
Mi
ofl-arge"AAS (AL8) alloy. casting-t.
41ya
SOURCE:
-2.eynyyeal plav svoystva, ekhnologiya plavki, Ylk
yuminiyevyye s
i"tetmicheikoy 6~rabbtki.. Sborhik s d by I. N. Fridlyan4e r
tatey
and'M~ B. All tman. Moscow .87. 1.
.79
Obd
giz,
7.
rious a i that must be introduc;!d at
T:.., rhe paper dese ibei.the'various re
c u iio
r
every step bl'the sinelting of the. metal, the pouringof ~the casting, the knockid out
;~6f:thiil cojre~,. and the heat tre iment, all of which are required to counteract thd ten-
~dej'a`c~'y~ o, e.... 8 alloy toward oxidation in the liquid state.
th AL All of this is especially
~Zonsequential_ln* the:casting oflarge parts. The. paper~describes the smeltin. 0i
"h ft- t -in graphite crucibles of a 100 1?.O-'kg
4,,:: AL& alloy, an. s aype, electric furnaces and
-~capacity ti. etails-Ahe compoifti of the prote ctiv ~c at
oil e o , ing, which prevents the
j
-en ry- -Fe of th6 cast-iron and steel crucibles-into the smelted alloy. Preheat
, t of t~~
606,"r.7000C of the
criLicible s'.and, the use of small lumps, in the charge is recom
of a flux consisting of
e to a Use
Proce;�s as much as po,
men
4 qe i' * - ' ' d d Appx. 0. 0 5
-0.0776
rspar s.recomm!zn e
ptci.:r46dute--o"~=-aati"xi-,a,nd, 0
6.ncej~ 16imation i'.Ibla'6kening." The
t' d46 is i tab _6 me:chanic'a`A-~:c:a_`itihg procediire is o_' t1inid in- 6tal in order to
u
c
tin 1 la. A'A8 (AL8)~Jtllojr castingsi. S[724/611000/000/0101020
as- go rge..
litate the,100; 'n out.of the:.cores from the ca tihi
a and to minimize the o.7)dda-
g
`-,th-"- 'Ad- -proce s s.- of . solidificiti6
e.,mo 2n e'. p~, eq,pecia
lly in large castings
is',p 1i6SWwhkk.*_ i "adiditidiis,'6f 2 5% caustic sulfide
core mikhi rc con ains -i
a~pr6tectiVe additioii.'o
~_pectic,g ue; 6'b ri
4`1 1% o c acid, all with a
*o.
"MOI
W., -The M - A 6
i4i 3. r .e sand with an addition
-was -prepare -w& +yu
p:r sy
mmim ze". it,
t1i, Arinkage stresses both
_"sur
iiiacti6al-and duv;ng._, e: subsequent' 6'
C 9 I;lg,#Fe scribed and extreme
uT= .g-, P.--,
res-- ~~ei t part bl"i
th
y~ s s-toimpact ows,.such-as those of pneu-
xp9sing e f
;ed. Det~ails; -of. t
C
_h the pouring-sys,em geometry required for
ha -a
is 'if tem for large parts is ex-
".part s pes re
~..o var]LORA set forth,. and the pouring sys
~_~emp iffed'-in- detailed cross-section. The depende*nce-6f.the mechanical properties
de of ALS all6j on tihe'sizO: of_the'micjr6grain is graphically
d'' heat' reatmeni con Le: 14~t
rayp ~.a_ ..sx-sting of-th
d t iiTR A3~8-alloy parts in,fur-
0
of 435 5.. --for 15-M hrs and their cool-
c pirculation_at4 emperature
e9
pr,_
--.w t r -at, 95-1000 6 ill. Oil, 4 0
in. a a r 0-50 :is+ d6tiik ncluded that the only
g:,
m'ech ties of thick-walled icast-
a1urtlie'r~- n-n_prove~ od~ihe anical.proper
in, san ldi- Id be th_e-:intr duction o -chilleks-Le. an increase in
d,
f
- ingsi. WPU
thf
dh:- - oul
rate-.,. whi ..W d~ l6j~n6nt Of structure with a findr
a the deve
t:6 re'; h 2 S I
-"diixdr#ie._ 3dii :...T ere'are figure on.
_40.
21158
B/032/6 1/027/004/~18/ 28
2 j liz B 1 03/B2 01
AUTHORS. Pe-trunin, A. M. and Petrunin, I. Ye.
TITLE- Test of friction cermets for adhesive power to the steel
carcass
PERIODICA.L: Zavodskaya laboratoriya, v. 27, no. 4, 1961, 461
TEXT: The authors suggest a method of testing cermets for shearing in a
system devised by them for this purpose. It is possible thereby to
control the quality of adhesion of such substances to the steel carcass.
It is stated that an increase of the content of nonmetallic components
causes this adheeion to be impaired considerably. The use of cermets for
heavy duty brakes is thus reduoed. The intermediate metal powder layer
suggested by the authors [Abstracter,a note: No reference] to serve as
a base for oermets augmented the adhesive power (after pressing and
sintering) to the steel carcass, and, thus, the serviceability under
heavy stress. However, the quality of adhesion of various sets of cermets
is in this case very difficult to be evaluated by comparison. To find a
way out of this difficulty, the authors tested annular cermets for shear-
V~
Card 1/2
21158
S/C,32/61/~2'/-,',4,
Test of friction cermets for ... B103/'B2C'.
ing in their new device [Abstracter's note: Figure is too unclear for
reproduction] which is clamped between the jaws of a tensile-teBting
machine. The latter is kept under stress until the sample suffers
breakdown, and the shearing resistance is determined by the formula:
2
Tshear ' P/F kg/mm . Here, P denotes. the maximum destructive load in
kg, F is the area of the cross section of the annular sample at the site
of shearing in mm2. The effect of friction may be neglected. To prepare
the samples, 2-3 workpieces are selected from a set of cermets, and turn-
ed into annular samples with external diameters of 28 + 0.05 mm 4nd an
inside diameter of 12 + 0.1 mm. To indicate the break7ng direction,
a 0.75-mm deep cut is applied externally to the sample at the boundary
with the steel carcass. The authors' method not only allows the control
of adhesion, but also a more accurate choice of pressure for sintering.
There is 1 fig-ure.
Card 2/2
_ffTRUUIN,__A.M.; LOKTIONOVA, N.A.; ALITMAN, M.B., rukovoditell raboty;
Prinimali uchastiye: WZHICHKVSKIY, A.S.; SHKROB, V.A.; POSTN':_v'IV,
A.S.; ARBUZOV, B.A.; PANTYUSHKOVA, N.S.; POBOCH.TNA, T.V.;
PATRUSHEV, L.M.
Mastering the production of large A18 alloy castings. Alium.
splavy no.1:150-159 163. (MIRA 16:11)
PHASX I BOOK KXFL,0I-tAri(-x JOV"'jCwA
7-
kkAdes,j)rA aqk :JSIR. In.tl-.,t -.hj---jeojya
POVY31'emlye offekttvn.)st% t--j,jVh je,~,,y~tv. SvOys'vm frtk-j
nykh "t.riAlov t~l Rfr*:!-.cY If ?r-ln~
Prop~rtle3 Of Frltlor Kt-141s) A-:-, lZd-vj AN 54~A. I y-
183 P. Lrrdta Slip 1-r~4. 1,80C, COPIeS
Steep. Ed. , V.S. Shch.d-, r~,t.r or
td. Of rUblighlog H-": P.M. B~lyarlz; T-h. &I.: T.7. P~lya-
kova.
PVRP= t 41vis 0011-tion, of articles to Intended for "I-er3 -d
scientific workers In brokes ~0 frict-lon cat-lala.
COVIARACIRt The first gr-Z, .f articles deals with basic Jcsl&p
WASS,,-. to r Increas"d lire and africleney Of br&k,s. the
9.p 'a
eand g",p with -bl -la. -j tt~.. IS.
of appliesII.. of .-- fr. Son -terlA1.,the tr'lrd grO'P I t.1
-~ m US t.of tr ..9
testing ew,t -do and tf at,
h .n3 of rrltt.h
pairs and br&k.s, s,2 t~- f-th X-J,- wIth tr! ~.~Ign f tr-e.
" Cale-Alation data.301 am zant-ed. Mar-C.'
scoMV&SAY most of the kr-11106.
TAMA OF COWM?rr3,
Ch.pl2ko 'a yo3'3 MC, Pb3lanriikov.
A.t.t-.c -f' At ft D~rl g,tra La-ling R,,. 2b
-sent -It ~.j or awt,ca tic brake Sys-
TTz auttors p .r ~7
tees, pojrt laularty th~ effect or cat-Ing charact-Istl-a 4al
adjuatzoent If th~ .1h,". wembors I--- particular synt-3 on braxe
offial.,
.ay.
--CXXAdT',Q11, -L~X- B-1, PL-S-l for Ine-alng the Life 46
"'d EfClc'* a of B'O"
n y
T.. aul~ r dS-a.- 1- -structifn -iJ o;~ratl- of' ra!l~d
brakes with to .~d ff'-1:-Yb-i
ciatting braklng -11stA-1. ard 1-rites typesof ='4 ~ '"e 3
1. -ond 1. the stage.
pAn 11. D5V7CLO?M?4T OF k--W "ICTION RATERIALS
AM LNVE=IGATION OF -'HZLR APPLICArILNS 62
1~-tig4ti.n or Friction
Proporl-las of Low-Carb~n 1-3ase kl.~js b2
T.-.* &.=~r. pmont -S-,t. or qt~dy or rricti-n P"Pertlea
of.tool. .f'Ih .a c
1. - MI. I %P $It'..o' fr.. t', regl'.'
carbc& to 0-&' 1 oy 'at-re~,I)S'ta,t.5-ce-
orlb: ;he hrlf--t or 1;1~lz a &I., 1.Z -1-ti.;a
ion 'po't Sao " -.-bl-*Ity or te,' .
:
S o, A.A. T-'~n. Chroai~ Br-zao rcr R-J-Duty
I nL and
82
Th.,authors %scrib%t~,e pr~~,P rtles oft.h~".I- bron-S. gl~ln&
ther4h.r.ctr, atica afrl~t on tr.-'
compa a, the. with cost I ron .
Mardow, X.R. Dw,*lopcen- and Investigat,113n of Cer~' Friction
1110yo 88
fte author presents test infortastion on the M-8 clot fria-
tion mat, rial, which was tested in a pa.Ir with type ChIPM
cast I.M..
Q~!orgljnavskly, G.A. Aspects of the Developownt of Ei"t-Ptcolotant
PrIation Materials 93
in thl. arti.1 friction propertles of' the Initial components
of rri:tion w%rialst Iron ftiml~ b&rl= oxide, asbestos, kao-
Lin. 10 ad oxide. ca rbo,n black, gmphlto, allies gel, slag wool,
LI-On posod r, Is& powder, steel - I brass wire " .1,1P.,
alabaster* etc. dare o'sAml -A .Thoei;0fro at on strength and
Motion coefficients at various t. ape ratures in investigated.
-rtr~nln. PrIctic. Between Cast Iron
Plasti.v..".. 110
fte au~--iard disc~as qrf*.it or the evVosition, atmctw~e and
propertle: of ca:t ir~iworklngrln palr with IPK-161 pi~atic,
an fthan4e In th rriat In 3oer 12i.rt.
s
Top:"
AB ST-HA A
been developed. "'r
an Jmpur'ty uf ;io" I.: :a.
Mach ne
-~; -
&nd
in diarnet~r a~-4 Y, PC'V
at 520C, wattr q--encre.., 7
the disks nad a tensi-~- r t:a 4 Yt:-]
and an elongatior, of n-L'~'. -,ropertles c.,;
CQrd
L 41311-66
ACC NR:A7632
si~ecimens a.~.a r-
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FETRUNIN, A..M.j PETRUNIN, I.Ye.
Testing friction ceramic metals for their strength of adherent* to
steel frames, Zav. lab. 27 no. 4s461 161. (MIRA 14W
(Ceramic metalo) (Adhesion)
L4016 /5-3o
5 OU I WO 1601 ~IC'5 26693
C)
AUTHIOR:3: A!' tshu 1 er , 1- V 13
A. P. , F-.~nk tikov A. 1 . Ik I n A. A
TITLEt Irregular c- n4it: ns obli-jue c D-': -si r. sn-rx. 'N ii- -n
i'ERIODICAL: Zhurnal eKs-,erimentallnoy i teoretichesk(j% flZlKl, V.
no
TEAT~ On the basis of papers by V. Jjlikney, A. Taub (5b.
'~Khniki. '. 1~5; Landau, Ye. N.I. iifshits (1viekhanik., sp.,:shnytch
sred - Mechanics of Continuous Media, Gostekhizdat, 1954), R.-,.Zl-"Vl
S. A Khrist~anov~ch 22, 566, 19560a. B. Zel'dovich, ~andel'rrn,
and Ye. A, Feckti;tova (DAN-363R. ,36, 131-'5, 1461) the !,,uthors deso-'---"
a method of producing and recorling irreguiar conditions for the
of shock waves in soiids. The exi.erimental arran-eiiient is 8r' r.wn -n F-g,
2a The detonation w:ives -.,;hich enter the s-Decimen at a slant c~iuae
i ' 5 --itm.
waves with am~;Iitudes --;f between 3 and 4 . 0 Another irr,.nge:,,ent
allowed reac,-5.ng shock --,,aves of 106 atm. T,-.e ;;aramet--rs
Card V2
26693
i;;,56~ 6,., ~4
Irregular ccndit,_-_ns of obi,-*--ue
three-shock configuration .'-.rm,nF t3 -ii result of the co~-Iis:~n ,n--
shock waves, are Fiven for aluminum, lead,iron, and copier b~-_,ies .11 .2,~.-
the critic--.! angle at which a shock wave can 3till arise -pressure- was
found to rise by from 6 to 8 times 4hen the waves n-ve i7reater
pressure in the ccilision region rises up t-j 4 -100 -_-rn -.n n
steel. copper, and lea. it may even reach 7 !:DO atm If the W~jves
at right -.ngles. The results re analyzed by means cf the rrieth-A ~f the
impact polar3 It is shown that the picture with -)nly one tangential
discontinuity cannot be employed in describing the irreg-ullur conditi )%.i
the obli.ue collision uf weak shock W'iVe3 in the :iietail The ~iuth-)rs
present -~ :.-.et~.od of determining ressure and density behind the
w-Ive front from the parameters of 'he three-shcck cunfig-arati-n Pres3,,~re
fund -~ensitx for the collision of stronF .3hock waves in -Alumin;jm
calculated ;~s exuri,ples it was found that the incident inJ ref';- Navi-s
increase the density of siluminum up to b.",' g,c:0 M P. :Speransk~t.-,-a,
6. Tenigin (deceased), A. N Kolcsnikov;i. M j. ohvetsov, L N
-ind M V. Sinitjyn :ire thanked for assistance ~tn` infc)rn,-.t.-)n Tr.er~ -.r.,
14 figures, ', tables,and ') Soviet refer nces.
ABMITTED: May 18, 1961
Card 2/3
ALITSHULER, L V.; IEC;.,L~~, S i; ; EAY~tTIM., .-' %-; rEIRUIN, A,F ;
FUIFTIEGV, A 1 3 "'Ubi-iN, .' A.
- li8.L
lrreL--ular ccnditiunj cf cblique CO 'Ln (If ShCICJ~' waves in
solid--L Zhur. eksli. i teor, fiz, 4.1 no,,5:13F,2-1,11.,3 N 161.
i MEta.- 14:121
(Shock waves)
APTSFULER, L.V.; PETRUNIN, A.P.
X-ray diffraction study if the compressibility :)f ligft sut5tar,:es
in oblique collisions of shock waves. Zhur. tekh. fiz. 31
no.6-717-725 Je 161. (MIRA 14: 7)
(X rLys--Diffractim) (Shock waves)
AUTHORS: AlItshuler, L. V. an,~ Petrun~n,
TITLE: X-ray study of +!~.e cor-.,)re !~ 3 4b"'ity of li~;It
I - .1
slantinC collision Of 3hock vaves
?LRIDDICAL: Zhurnal v. 5', no. 6 ,
TEXT: The present paper describes an X-ray mcthod for :tudyin6 recllar
slanting:- reflections and :1.'rintint7 of* shock. waves in solld's and
licui~_-. '-!'f,,e me*!Iod an('
in t~~e reg4on of benind the fron'. o-
reflected shock waves. T-e -nv-st; -.ted ',J~,nt metals
aluminum) and C-),m dia~;:,:Lrous to X-rays ;7ater, -:Lraffi.-,
plexilglass). They f0U!`.f!, :,-r till ,3ubi;u4nc,f!i in th(, aren of re!-,,,~ction,
h i ,h --; e n:3 i t i e s a n,11 ~0, k /Icm exceo~!4n,- a
34 -j
mult:ple -.e I cc ~1- - r.
relatively s=a' ' az~(.' ezi 4--arce o" snoc? ,,;aves ~.re studie,,'. t i
shown that 1,'e para::~-' t- rs nc _i,~! ent Y.,-ives and the arj7l e 'c-,,
the 1ront o t%e ..,.e reflect,.on :.,,no e
Card 1/8
~ 47",f,
7 '6 3 Z
S/1 5,
X-ray study )f ty ...
known to t-L ;-:-,ameter~' -4n the re6ion of twofold co:-.
For determinizri~.r this tn,~ au'..,.ors used the ,ulse raulio~-,ra----
r . _j
t 1. 4 n t "I. er.,-! y e d
illustratin~~ the :nomenti~:- 1)osition of s-ock waves wi.-_
specimen. To iilust.r,,to thf, mo.`,od, they first study the collision of
waves of the 9---- j'.-,, 'rofi-ctir)n r)f ri wave fro,,.g an abso'~,,;tely r:t,:.J~
obstacle)(F-ig. rL,flecti-)n, *he spaced above the
Vial 1 4 of rest, ""' ir t',.e
is divided r,-- ions: is rej~ion
re6,ion of a sin6le the iron--q of 'he inci :en-
and the reflecte" -xrfold s-ock-cDm,
between tho front of --.e ref, vavp an,! the obstacle. Fig. 2
the position of the lnc~lent of tno rLflected ,,,,iive for two po~n'.s ~,f
time. r e e v I -j ~-,.i_-ncp flow. n e f o I I In 111;n n
are writter. doun in 9
D12 Di ~ -i- U, cos (at
.in a
Au~' U, cog a
Cos
D1. D12 4UI? (3)
P2 Pi -+- po_,jDj2AU12. (4)
Card 2/e
s n e v D - r
presFure
r c
a c
(2a
t) sin 2
Cos
ray
r o m
a:7ce
n'. en, s 4 e s
ve, OC4
c 9
r e s Ez
V
and r u i n
-r- by
V El
X-ral
ru p n e:
and 7.
ir r, .Q
f-7
ro---esco- 'i -
-1 ov r
d s c u 9 3 he r e f--
an~ n D n - V le
Card 8
, i7,.yft. ; i~v~ A I*s , : I . ; ; .!. , :".A.
, f r- - kc- - " * -. a n:
~ '~e r ~ 2 * ." 2, , ~ I- r. ~- s , r- , , * - .-f-
r t, s ~ -- tar, c e * ', ~ :` - P 1~ ry,: r . na . , r. . I :-- j . : n s ~, . mp ',,a - , r, f . . .
' ' ' - F:,S' - ." - . - ~. ~ a ; i
N --. r;L, . : - - c - #',,. -
--Y:1,
tan
ACCESSION NR: AT4010693 S/2601/63/000/017/0089/0097
. U 11
-~XTHOR. Kozy*rsldy, G. Ya. ; Petrunin, G. A.
TITLE: The effect of polygonization and rec ry stall Ization on the creep of nickel
SOURCE: A.N UkrRSR. Ins:y*tut metalofizy*ky*. Sbornik nauchny*kh trudov, no. 17,
19G3. Voprosy* fiziki metallov 1 metallovedeniya, 89-97
TOPIC 'LAGS: Creep, polygonization, recrystallization, deformation nickel, nickel creep
A!~ST RACT, I In some pure metals, among them nickel, creep occurs during polygo 'aization.
alld metallographic invostigations of polycrystalline samples of annealed-
ick -s*.c:d for creep showed that during
-ei Lo the process of creep a polygonized sLrucluiro
was for-ned, as a result of which, resistance to creep increased. The speed of creep and
-~--ie before disintegration depended an the degree of deformation from the iniLial poly-
goaized structure of the samples. It depended also on the intensity of the process 01,
poly'-onization and recrystallization taking place during creep. The intensity of !Ihose
processes was determined to a considerable degree by the temperature and tlrc
structure. Lr the metals were strengthened, either as a result of previous deforrna'"on
Card 1/3
ACCESSION NII: AT401060
or durinu the stage of incomplete creep, Lhen durin'- further creel) a roturn ',t) rocr%':
0
zataon was oi)served. If tho initial deformation was sufficiently Small, Lile,-.
noaling whicii followed die doforniaLion, a state of stable polygonizatiun was reachvd
which prevented rcerystallizaLion. In the cases when the initial deforniaLion wassu."'ic-
iently large, recrystallization occurred simultaneous with polygonization. This and
other 6ata were in--.pri~~Led as follows: the poly.-Ionized structure formed during creep
of before thc~ .owed down the process of creep; the maximally stal)le s-.aw o*
gonizat"un. was by a prcv-ious deformation eciual to 2. 99/b; diose
lowest dc~~ree of durzLb'kity. On the bas.,s ul
describe in *.,,-.e araicle, the authors reached the following conclus'~.Is: k.,
ie ~-~t4al poy,;onized structure during creep depends on the degree of prev.ous de-
o
f L -- t' 0
forma-:on. (2) WiLh an optiral deg-ree of previous defermation the inost s',ab'e ttate of
polycronization, .s obtained. This polygonization has die highest resistance and
recrysLaLiza*--'c,.-.. (3) Substructures formed as a result of deformations V~. -," differ
from the optimal deformation have less resistance to recrystallization a d reep.
Orig. art. has: 6 figures and I table.
Card Z/3
ACCESSION NR: AT4010693
Insty*tutmeLalofizy'ky* ANUIrr RSR (Illstit-utoof the MoLallurgic.Li Physics
A-N Ulu RSR
SUBNETTED: 00 DATE ACQ: 3lJanG4 E,",rCL: 00
SUB CODE: S'5,, MM
INO REF SOV: 005 OTHER: 005
Card 3/3
KOZYRSKIY, G.Ya.; ,.A.
Effect of an; recrystal-lization ~..% *6Le ~,'
nickel. Sbor. nauc n. rab, Inst, metallofiz. AN lji~S.,. no.17:gc-
"I 11-:3\
7 ' I'S 3 . k i .-,A ~ -
KOZYRSKIY, G.Ya.; PETUNIN, ).A.
Effect of the degree and temperature of prestressing on -he creep
of nickel, Sbor. nauch. ra.b. 1,,t.,et,11ofiz. AN UIRSR no.lb:
39-43 162. (MIRA 1b:-,)
(Nickel-Hqrdening) (Creep of nickel)
S N) 1 62 ( xx 1 1114 IN it
I (H )3 120 1
At I HORS (I Nil Ind VdTunin. (i A
T1Tt F Deformation ,t grain, located on the surface and "ithin pokcrN,talline sarnple~ durine
creep te"IN
S( )I RIC I Akadcvm%j natil, I kra%in%'koNt RSR Imimil niclaloki,NkN Shorml, nau,hn%lh t;th-,,
no 14 Kir% 191-2 h/ilki rnrialh,% I IX X I
I Thc usual actcpictt method tor itidging the truLtufal dianges taking plaLc in metals durm.Q t~-cj,
tests h\ imestigation, carried out on tile -urta,c of the sample, i, crioncou,. is the surla,l: gram, \%it!; '11c
or more free laces are under fillcicill 0ML11tions than those kine. beneath the surface, CSPCLlilll\ ill CIC\dlCd
tcrnpcraturc~ In the present Aoil, tile aulhor% mw%tigatcd b\ Vra~ and b\ metallographic methods \%licthei
the deformation (if the surface grains in the %arnple% is the same its that in the grains Itmer (Itmit. %\bell flic
101ill d0ormation in 91) 99 ',, pure ljj~ktl saillples 1% 1~ ill 7".. it% result of creep test the struLturt: tit [lie Y1.1111,
Ising 2 min beneath the surface %%as imestigated after cutting the sample and elect rok t icalk remo\my, [tic
cold-\%orked surface I lie onclusion is dra,kil that the mean deformation of arains In and heneath tile 'Ilr1.I'c
is the ;ame I here are ? table, and I figure
Card I I
KOZY,I~F,K: Y , (~. !a.; ~` . --I p -%. j '~ , ; I.,:`-1,~" ~,. ' . . .
L--'fe-t, ~,f tne :ewree o~* --~ -,n -za -. - .- an'
1, .," - ~ r, ;~ -4"r.
c:-ysta- 'zat-on of nicke-'. -'z. me.. , :Ts,*.a-.'ovec. . -.3~ i-lA. -
s I ~,,- %, - ~. - , , . - I
0 r13ti-4U-~ M, '.a-L!C"iZJ:(' A'v "I'-
I " ~ t 1,
MMON, L.I., kand.tekhn.nauk-, P41APOV, A.G., FETRUNIN, G.P.
-%-~--
Packing for rotating shafts of zentrifuga' puzpa in chemicst' secticas
of by-product coke plants. Koks I khim. no.10:51-55 '57. (M MA 10:11)
1. DneproDetrovskaya werhob2astnAya nartiymayn .9rkolm (for Mamon).
2. DneproDetrovokly khimiko-tekhnologicheakiy inatitut (for Potapov).
(Centrifugal pumps) (Packing (14ech&niem! engineering))
MAXON. L.I., Icand.tekhn.nauk; PWWITIN, G.P.
Stepless regulation of the number of turns of a rotor in "-800
r 400-type centrIfuges. loks t khim. no.6:57-59 '60.
(MIRA 13:7)
1. Dnepropetrovskiy khimiko-tekhnologicheakiy institut.
(Ammonium sulfate) (Centrifuges)
L 2W-6146 EWT (t~)/90(V)/EVIP(J)L/EWP(t)/EViP(k)/W(h)/EWP(1)/E.rC W-6 IJP(c)
ACC N1h "6004646 SOURCE CODE: UR/0383/65/000/005/0045/0047
AVMM: .7amidw, 1. A.; Pativals, G. F,; Furasov, M. Do; D'jacheoko. 9. 1.
M: some
6- to steel tubes per-16
TITLE: ~ ~,L ~for depositing polymeric protective coatings on
forming in aggressive media 6*0
SOURCIs Notallurgicbedtaya I gormorudnaya pronyablonnost', no. S. 1965, 45-47
TOPIC UGS: protective costing, polymer, metal tube, corrosion/RTSh 102/42 tube
voting machine
ANMMAM: The replacement of expensive and scarce tubes of stainless steel$ and non-
ferrous and precious metals with tubes of ferrous meals having protective coatings
of polymeric materials resistant to fj&resslve media a currently being extensively
investigated. In this connection, the authors describe the newly designed MPTSh 102/42
machine for coating with polymeric materials the internal surface of semless steeY-
by dw "truslon method CrIg. 1). The operating principle of the machine is such that
the screw conveyer extrudes the paste of polymeric material Into the barrel of a
rotatbW tube, or more exactly Into the annular cavity between the mandral and the
tube, tbus costing the internal surfacat of the tube with a uniform layer of the
paste..Astsmatic pickups trigger and halt the feeding of the posts and the removal
of tho'coated Lvbe and momtIng of a now tube onto the conveyer table. Laboratory
L 2D783-66
ACC Nlh A3PGM646
m"ement
of
'-I U
ogsup!;Lood
I* Dlagrm of the &position of protective coating
I hollow red; 2 - tube being coated; 3 - compacting disks; 4 smadral;
5 costi:mg; 6 - cavity for pactim; 7 - pasts in bollm wod
ACC NRs AP6004646
Ir
Fig. 2. General view of the MnSh/42 machine:
I - screw extruder; 2 - contactless pickup; 3 - guide table; 4 - collar plate;
- frams; 6 - bollow rod; 7 - mandrel; 8 - collar plate; 9 - tube-moving
mechanism; 10 - tube-feed toblej 11 - mechanism for feeding and removing of
tubes,- 12 - costactless pickup - 2-. 13 - contectless pickup - 3-. 14 - automatic
Cestroller
Cmd
L 20783-66
CC NR, AP&M646
and operating trials of this machine produced positive results with respect to tubes
of various diameters and of a lersh of up to 7 a. The machine can deposit a I-me
thick coating on 100 tubes of 42-w diameter per hour or on 48 tubes of 102--ma dian-
ster pair hour. The thickness of the coating can be adjusted fras O.S to 2 M. This
method of tube-coating can be employed as a protection against corrosion and as
a mans of prolonging the service life of tubes, provided that the coating material
is applied in the form of a pasta. Currently the Dnepropetrovsk Institute of Chem-
I ical Technology, In collaboration with the Dnepro;fz Rrz u~~trogsnous Fertilizers
plant a per pS operating trials of the a coated pipe In pipelines
for wport of aggressive fluids; this should prov to be a conclusive test.
Moreover, It bas been established that eventually the machine can be adjusted to
cost pipe sagmente reaching 12 u In length. OrIg. art. has: 2 figures,
So OWIt i -,,. Ile 13/ M MIM: ~/ GRIG RM: 0001 0=1 W: NO
..!--41747 -46 F-VT (m) tIA=---Tjj?(f')
AM-N-V-jK0M4l (v)/-T/WPa
A SOM' -2 CODE: UW0ID5/66/OW0D6/0675/0&77j
MMM: -92M~'kYY, H- Y&.--KMrskly, G. Yft.B Petrunin. H. O.-Petrunin, G. A.
OTC: InStItUt'S Of Metal PhYSiCS, AN UkrSSR, Kiev (InBtYtut metalofizyky Alf URSR)
TITLE: Effect of the prestressing temperature on the final structure and on the re-
sistance of nickel t creep
1krayine I
SOURCE: Ukrayins' fizychnyy zhurnaLl, Y. 11, no. 6. 1966p 675-677
710FIC TAGS: nickel, creep, crystal lattice structure, temperature dependence, hio
temperature strength
ABSTRACT:- The purpose of the investigation was to determine the influence the
prestr#sing temperature on/the disorientation of the substructure elementif nlckel~
and to&mcertain the effeef produced as a result on the behavior of -t-he-Iffe-kel in
-cresp.%uXickel 99.99% yurel%as tested at 700C and a load of 2.5 k9/mM2- The samples
were prepared mid their structure tested with x-rays by a procedure described earlier
(G. Ya. Kozyrskly et al.,, Issledovanlya po zharoprochmym splavan, v. VI, Izd-vo AN
SSSR' 1960, p. 17). The nickel was defgrmed by tension to different degrees, from 0
to,A%. at temperatures -196, 20, and VC at a rate of 4 x 10-3 see-1. Before the
prestressing the samples were annealed"it 1100C for 4 hours and cooled slowly.
Mechanical tests have shown that the best endurance to creep was exhibited by samples
prestressed at 300C to 3%., or those prestressed at -196 and 2DC to 2%. The results
a" discussed in ll&t of data on the substructure elements produced in the nickel
2
OSTROV SKI Y, Al .1 .. irzh., red. -,U-,Cv , I.I., lnzh. , red.;
ASH-F-., I A . n zl. rf-.-c T-7-- 7 ",77 r-': 7 ! KAi n.-h
red.; Y*FLI:TYEVA,
inzh. red.; red.; FCZD1:YAY,'~A,
L.*~ ., inzY.., red.; KOKOVI K.','., nzr.., rec.
[Collections Nos.', t!, 14, 43 :)F' sla.,:ivira
estimates ','o:- ror:stru-ti -n -arr.' Sborniki b0.5, 6, 14, 43
eciinykh ra'.,).,.n'vkh t.-uiniclimki. ra--t.,3unok na stroi lel Iryc-.
ra boty . Mo-.1kva. F6 p. (Vlf-,,A 18:F)
1. Russia (1c'.23- 1 S.S.-) ~,osu;ar~itvenr*ry komitet io ~,.e-
lar. s--r-,ite.l--,tva. 2. Gusstrov SSSR (for Ostrovskiy, Vedelikir.,
Kud-'r.o,.)- 3. institut ekonomiki
stroitellstva -ru-sstruya ~~SS.' (for 7,rigorov, ~!u:-ashev, 1--L--ur..I-l
Yeliseyeva, Tu7ianskiy, Fczdnyakova). 1- Goq-,.dar.9-Lvernyy J,Jn:-.:*-
tut po ~royek*irovfi-niyi, t.:ve--inoy rr,- allurg~,.' (~O:,
*k :--, - -k
Feci,urf-ha lnrt-*tilt To r -,e
:-var.iyu t, ('or
PETRUN121, I.Ye., kand. tekhn. nauk
Review of R.E. Isenberlin's book "Istal soldering in lt=mc"
with a gaseous atmosphere.* Svar. proizv. no.Iti.3-4,4 Ja 164.
(MIRA 17: 1)
PITHUNIN. I-Ye., kand.tekhn.nauk; KOHAROV, V.M., lnzh.
"Metal soldering in furnaces with protective atmospheres' b7
R.B.Beemberlin. Reviewed by I.I.Petrumin. Syar.proizv.
no.8:43 Ag 160. (MIR& 13:7)
(Solder and soldering)
(Metallurgical furnaces--Protective atmospheres)
Obenberlin, R.N.)
PETRUNIN, A.M.; FETRUNIN, I.Ye.
Testing friction ceramic metals for their atreng-th of adherenoe *x,
steel frames. Zav. lab. 27 no. 0461 161. (KDRA 104)
(Ceramic metals) (Adhesion)
FFX91NCVF S.S.; KOBYLISKAYA, M.V.; KITZNETSOVA, O.A.; SOT-OV'-FV, Yu.A.;
ZAV"YALOV) V.G.; MASHIN, V.N.; V5117SKAYA, 0.1-a.;
FE'R'l,'-'TNJ M.M., RILF, ~'-.L.
Starting a pyrolysis unit for chamber gasohne in the V...
Lenin Oil Shale Procesging Comb!ne. T~y VNIIT nc.14'-64-68
161. IS11,1:
VISM4YAKOVA, Ye.S.,, inzh.; RWYANTSEVA, N.F., inzh.; DOR0111GE-A , G.A.,
inzh.; PITRIOVA, L.V., inzh.; PETZIUN, ~*.I., in2h.; VESKD,
I.M., inzh.; AI,'D.'Z=A, L.F., inzZ
RIABINNA) A.I., inzh.; YOSHNIN, V.S., red. gazety; i:0,,TGV,
A.I., otv. red.; IMITSKIY, V.P., red.; FLIGELIMAII, S.M., red.;
ROZHDAYKEIA., V., tekhn. red.
[Kalinin Artificial Fiber Combine] Kalininskii korbinat iskus-
tvennogo volokna. Khlinin, Kalininskoe )-nizhnoe izd-vo, 1960.
92 p. (IOU 15:F)
1. Kp-lininskiy k3mbinat iskusstvennogo vololm- (for e-11 except
Yorkov, Yunitski, , Fligellman, Rozhdaykina).
(Kalinin---Textile fibers, Synthetic)
;~004/BO 7
AUTHORS: Meskina, E. I., ;;, k
Tsarlkova, A. 7.
TITLE: Ways for Reducing t.,,e Con8umption of Dmethyl Furmam.,.,.-
the Production of Nitron Fiber
PERIODICAL: Xhimicheskiye volokna, V)60, No. 4, pp, 15-16
TEXT: The authors attempted to determine the lo3ses in dimethyl fDrmamil~
(DMF) in the individual stages of the production of Nitron fiber and the
Possibilities of reducin 9 these losses. They experimentally studied the
hydrolysis of DMF at 100 C in 25, 60, and 92% aqueous solution. A K'j
(KU-1) cation exchanger was used for analyzing the mixture To stuJ,-
effect of impurities on the hy1rolysis, it was studied also with
of 0.17'5- oxalic acid, and admixtures of stainless steel of type I X I T
(1Kh19N9T) (this steel is used for the construction of apparhtus in
Nitron fiber is precipitated). The experimental results are givLn n
0,
The loss in DMF due to the hydrolysis at 100 . was estimated to 3,09- w.
0
at 80 C to 0.001 kg per kg of fiber. Furt~.erm---re, tne autnors
Card 1/ 5
Waj a f -j r R, d u c i n iv t r, ~L ~i i m;,
Formamide in the Productijr, A1 Iiit.----,n BO 04 ;'B 0
effect of various rectification ~;.~`.As c!. the MU I c s S
the rectification of the mixture n vacuo ;~t .,,0- 'j-
siderably reduces hydrolysis. A general calculation of' the DMF
the individual divisions of the pilot plant kin kgper kr. of fiLer'
the following results:
spinning division and chemical division 0 , C,
rectification . . . . - - 0104-0 3'
vacuum distillation . . . . . . . .3.o6-3 j-
0 20-0
The DYIF losses in the chemical division anJ the spinninr J:visi-~n
of the loss occurring when changing the fielders (0.011-1 -0 ~D--2 kg,'t,.;Y
fiber) anJ the amount of DKF carriej a! ~nq by the fiber '3-00~'.-0.02
These losses can be reduceJ to 01.301 c-,, aJJitionai wasning.
losses were caused by the removal of ~YF -ve-tilators. These 135.qe~3
due to the insufficient packing of t .1e apparatus in the cnemical
They can be completely eliminateJ. In tne spinning livision, nohever.
evaporation of DMF cannot be avoide--. Tnis loss is estimated to 0.11z-
The authors discuss the regeneratic'. ~)f D11Y `rDrr. t-e vent.,lator _r
spinning division, T. M- lv,~n~~v~, zollaborat~)r t)f tne first
Card 2/5
Ways _'~r
Formamide in the ?rod,jcti,')r-, ~D04//B 0 7
a w 1
-harc:(.
has alrea.iy stuJied adsorption ty Me
inadequate. On the basis if the equ i 1~ (;ur'te 'f V-:
DMF above 76--iter, absorption of DMF hy water is sugi.,,estel. Aa~t.er
distillation column of the rectifier division is capat-le of a~.iorl-np -I;
to 90% of DMF contained in the ventilator air. Considering the possib:k-
improvements, the following conclusions are drawn:
DMF losses, kg/kg Nitron chemical division 010, - O~Di--
by the fiber 0.'001
spinning division 0.04 - O~045
regeneration 0-05 - 0 0'
other losses C) ooq- C) 0c)-:-
The folloviing can be regenerated in the absorption of DIAF frou. venti-',~',r
air by means of water: 0~03~' - 0 04
remaining loss 0 075 - 0,0)
There are 4 :igiires, 4 tables, and 4 references: 11 Soviet -in-I 1
Card 3/5
Ways for Reducing tne C'. 3
Formamide in the Production of Ni tron ,er B 00 4,," B07
ASSOCIATION: Xalininski-., f i j ':117 -)f'
5c e n t i f ic
- M
I , F i k t,
(Pilot Plant of t n A 1 r, n C , t. n t I f I C R
o ~3yn tne t I c i t, f- r- 9 r~, r; r. N I r r" ~jv
%: :.- -~ *~ ;I "A
Le: en 1 tc,
of DIG % ithout aJ i :)n-- '-A'F -&it, a* -f a i
the type M18N)T; 4) (,0-' D"'UF viiti~ al~i,.-Jr, f ox I C a -.L,j
f or DMF) ; 5 92~~, DMF h 1 t hou t ;i-I I i t i .~r r:-, t:, t , I t n
HCOOH mo]L-/l 1 C)4
Card 4/5
'6C ,
S/183/ / :: -- -- .- , - - - - , ,
~0041 1'; 0 '7 :::
i
.4001F
%~ Ii
I
,,~ 320
0
0
11)
I
e- -
I
t w
1~ -
C~)
-IN
"CC
Card 5/5
BOROVSKAYA, V.G., kand.med.mauk; PE7RUVIN, P.F.
Functional state of the adrenal cortex, content of blood pro-
teins and some other biochemical indices in patients with
eczema. Vest. derm. i ven. 37 nc,.2-.21-25 F163.
(MTRA 16:10)
1. 1z Ukrainskogo kozbno-,venerologicheskogo instituta (dir.
dotsent A.I.Pyatikop).
PEMUNIN, P. F., mladshly nauchnyy sotrudnik
Pathogenesis, clinical aspects and treatment of lipoid necrobioEis
of the skin. Vest. dorm. i van. no.2:35-42 162.
(MIRA 15:2)
1. Iz koshnogo otdela (zav. - prof. Z. N. Grzhebin[doceasedl)
Ukrainskogo nauchno-ieBledovatellskogo kozhno-venerologicheskoizo
instituta (dir. - dotsent A. 1. Pyatikop)
(SKIN-DISEASES) (LIPIDOSIS)
NIKOLAYEV, Georgiy Alekseyevich; PETRUNIN, itudolf Valentinovich;
yXftWOZO, Yakav Danilovich; LEBEDYI1 A, Zoya S,e,, anovna;
KOVERDA, Pavel Tro'im-.vich; SERGE"Fl', Y,-.-'., :-e--.;
KUDRYAVITSKAYA, A.A., tekhn. red.
[Work of volunteer constructor offices in introducing inven-
tionsl Rabota obshchestvennykh konstruktorskikh biuro po
vnedreniiu izobretenli. Moskva, TSentr. biu7o tekhn. in-
formatsii, 1962. 3F p. (VIU 171:..)
STREPIMYEV, Y,-,.A.; PETRUNI& Y.A-
SyntheSiB of o,~-.010-.01--trichloroalkyl-(A)-isocyanates and
,~ "r
c4,PL--dichloroalkenyl-(Alisocyamtes. Zhur. VKHO 7
no.6:702-703 162. (MIRA 15:12)
1. Moskovskiy khimiko.&tekhnologicheskiy institut imni
D.I. Mendeleyeva. (Isocyanic acid)
FZTRUNIN, V.D., fel'deher
Velamentaus insertion of a short umbilical cord. Fel'di &)Mah.
?3 no-10:33-34 0 '58 ()(nu i I: i I)
1. Oveorokskeya uchastkovaya bolluitea Keluzhskoy obleEtt.
(UMBILICUS-ABNORMITrES AND DIFORMITM )
.PETRUNIP, V.D., felldsher (aelo Obsorok Kaluzliskoy ablasti)
Disro-,nsa.ry service for the r-lr&l popuiation. i &ku3,,. 27
no.3:43-44 Mf 162. K~,,A 15:4)
1. (RURAL MEDICIIE)
PETRUNIE, V.D.~ felldqher (selo Ovsorok Kaluzhskoy
Improving the work of the medical and obsteft-'-cal
Felld. i akush, 27 no~4:42-4.4 Ap 16~1.
(MEDICAL CJ,IE')
TWRLTRIII, V.D.. felldsher (solo Ovoorok laluzbokoy oblasti)
, .-I
. ............r.......
Prolapse of the cord. Felld. I atkush. 23 no.7:51 JV58 (MIRA 11:8)
(LABOR. COMPLICA73M)
(UMBILICUS)
FETRUNIN, Vj.,-fe~'dsher (selo 07sorok Kaluzhskoy oblasti)
lAyout and equipping of the collective farm maternity home. Felld J
ak-amb. 24 no.8:41-43 '59. (MIRA 12:12)
~MATIWITT HOMES)
PETRUNIN, V.D., felldsher (splo Ovsorok 4luzhskoy oblqati)
Our oyDerlence in trying to redur-n thA wimber of qttll',jlrthR.
Falld. i nkush. 23 no.6:~1-1)2 Je 15;~ (MIRA 11:6)
(ST IUR IRTH)
L 2142_A~* W(U)
XM RK, MP6017370 SOURCE COM MV0363/66/0O2/003/0464/%"
AUTHORS Sownkov, V. Aq.P6LrAMin._ V. F.; Sokolovskaya, To. X.j Nefedov, A. P.
ORG: Institute of Atomic Energy in. I.V. Xurchatoy (Institut atomay-energii)
TITLE: Structure of the-M-sub 2 phase
SOURCES AN SSSR. Izvestiya. Neorganicheskiye materialye v. 2, no-.3, 1966, 464466
TOPIC TAGS: neutron beam,, neutron diffraction, tantalum &32oy,, vanadium alloyp
iron compoundj silicide
ABSTRACT: IM allDY TO us studied on a neutron difraotomter usine a
'Whrowlatio neutron 1.12A) obtained from a foausb* i~~Aluoi&
M Im min M -- t -- orysta2, At Owc taw T&V2 'phase Is of -the lave* phase of the
Me% UP with a sq.16A. On ooqwrin neutronapaphle data with "rUw
o5n&oted x-ray 13westigattow the owwlwdm tan be nuli - that T&V2 has tw
"Im""D ndifuatimst ImAmWatwe %ft tM =d
NgZn2 tMe Ciig. art. has: 1 figure and 1 tablee .[JPR51
SUB CODES 11,, 20. SUEN DAM Oejul,65 ORIG Wt 006 01H MW: 003
ro'
Va
K ri;'c) I lus - t.."
, no. 2-
19y),
r-.- i n rc, r
t'l. tr.
s ;3nc
r-.5F
l m
d ia,- rs
in r. Lisa
ro'.
n r-,-, s
ARTAMONOV, R.P.; MORFYMFA, Ye.V,j-_PLPTRTININ, V.I.
Wide-range high frequency conductomater. Zhur. fiz. khim. 39 no.3096-
Sol Yx 16 5. (KRA 18.1"
1. Uningradskiy khimike-farmatsevticheakiy institut.
7 77
L 0094(,--66 EWT(s)
.ACCESSION NR-. AT50159.37 UR/309Z/65/000/003/0051/0063
AUTHOR: Davydov, M. S. I Zeytlenok, G. A. i Levin, V. I M.
_i~ - M.
PlIglin. 1. G.; P~~ r~t~shin, IrAnkel'shtern,
TITLE: Problems of constructing the deflecting system of a 5-Gey
channel
SOURCE, MQsrow. Nauchno-iseledovatel'okly institut elektroft niche okay
- ry. lektrolinichookaya apparatura; obornik otatey, no. 3, MS.
apparatu LE
TOPIC TAGS: antiproton, antiproton isolation
ABSTRACT: The construction principles of an antiproton-isolating r-f deflecting
system are set forth. Calculations showed that the most expedient deflecting
system should comprise a set of Independenily-phased single-gap quasi-toroidal
resonators operating at do fimdamental wave mode, the deflection being
accomplisbad Ivy an electric r-f field. The deflection system of the OlYal 5-Gay
Awd
L 0094(-66
'ACCESSION NR: ATSOIS937
antiproton channel designed along the above lines (details given) has these
characteristics: 16 rectangular -denec ting -area resonators, resonance frequency
150 Mci Q-factor. 15000 or higher# shunt resistance, 0.8 Mohmai power lose in
one resonator is 60 kw and in the entf re deflecting system. I Mw at a rated
electric-field strength of 31. 2 kv/cm. All resonators are mounted in a 3-section
14-m long 1. 5-m diameter vacuum tank. The resonators are connected to their
feeders via vacuum lead-in* and two-loop matchers. A separate -sac itation 1. 5-
Mw vhf oscillator produces 6- jk sac pulses at a repetition rate of 5 p/min. Orig.
art. has: 12 figures and 6 fornsulas.
ASSOCIA TION: none
SUBMITTEM 00 ENCLi 00 sun CoDICI "P, W
No xzr BOVI 005 OTHERt 00i
ACC NR:
petru:-.in, V.
None
"'.am~ 05 o' e-~ (-Ctron c 7.-. prictorin,,,
cl,-,ar6e t~'-cn into cor.~.;idcration
-.3scow.
appara-.ura, no.
TOP:C '~';,3S: mat',,,ematic anaiysi5, ejectro.. Lca*~*~---.----,
A3 S T RA C 7 of eIeC*Ir3:. IS Geve-Lop(.G "C'
.1 - &~ %x) . 7%e rac.;-
ment and (~efo.--.,at on of -,'-a c pp!
is t;~~en into cons-LdErat~c,.-. comoensat~on focus~ni~. -:.m-
em,-
avement o. electron c-uster 6 m a th a '. ically ar.6 -'.S are
nlct~:t-d -~n -.-.a for-m of curves. The n'.,-.ase limit for electron lea;~a,~e a:~ s
s tab 11 4- t yare calculated and t,-,e latter Is plotted. Orig. art. has: 25 or---,;!as
azd 7 figures.
SUB CODE: 20,12/SUBM Dk'-: None/GRIG REF: 001
Card -1/1
- . i n zh . (~? ~: I zn,,Lm rri' ~
,MY'TN('V, N -.', - I kftnul, tc-khn. nauk-, ;IF "( T11! 11, V. ~~ 1.
Corn IrrIlgAillion in Yjazakrs'.PLr . jl~r '. me I . 1,1, n, . -, /,
Kr I . (,.I .:, -
GAAZ, S.N.; FAFMCHMO, V.D.; PETRUNIN, Ye.P.
Device for study of t1w antifriction properties of materials
in corrosive media. Zav. lab. 29 no.6%763-764 163.
(MIRA 16:6)
1. Dnepropetrovokly kbiniko-takhnologicheskiy institut.
(Testing machines) (Priction materials)
lq~e
ACC NR, AR6035421 ----------SOURCE CODE: WO137/66/OOO/oOq/DD43/D-C143
AU71i0R: Zhukcyvskiy, B. D. Zil'bershteyn, L. I. ; Yankavskiy, V. M.; Petruni-np Ye. P.
Guzevataya, L. I.
TITLE: Preparation of welded titanium tubing stock for cold working
.SOURCE: Ref. zh. Metallurgiya, Abs. 9D281
REF SOURCE: Sb. Proiz-vo trub. Vyp. 16. M., Metallurgiya, 1965, 53-58
TOPIC TAGS: titanium, seam welding, weld defect, heat treatment, temperature depen-
dance, C-0 lei f I- cie+or- f-ion
;ABSTRACT: To determine the continuity of the welded seam, the samples were Subjected
~to x ray flaw detection, which showed that there were no flaws in the welded seam. The'
samples of the obtained tubes withstood tests for flattening until the tubc walls came
,in contact. To eliminate residual stresses occurring during the manufacture of the
.welded tubes) heat treatment must be employed. The influence of the tube heat-
'treatment temperature on the residual stresses was investigated in the temperature in-
:terval 550 - 750' in steps of 50% After deternLining by the metho,: of N. N. Daviden-
kov ~'he residual stresses in tube samples annealed at different temperatures, the
authors establiGhed that heat treatment at 700 - '71,)0' climArviter. the utrerrcs almo.,;t
completely. Cold reworking of the obtained tube to di-mensione (~k) x 0.16, 49 x
and 48 x 0.2 mm has shown that the metal consumption is appreciably reduced the
number of passages is less than in cold working of seamless tuben, t1hus providing tne
Card 1/2 UDC: 621.774.21: 621-791.7
ACC NR; AR6035421
advant- &,_7es of using welded tubes of teclinical titanium an stock parts. 5 rE6-
tions, I table. L. Kochenava [Translation of abstract]
SUB CODE: 11, 1.3
i C,,,,i 2/2
val
1161. 1,, ~ "T 4 T A , I f . -., .
Mam!el-d.rzel
Ch a rar er ist cs uf filrbr i,js ,f' , ~: j, i !- a-; 2 , .! ! --ti t . , ", , M, . . .0 1 :~ , I I . I . I I . .
'a I
9. Monthl List or Russian Ac--ssi-n . Lil,r,try -:f Corigi-ss, it,vL4. I,r- 0"1 i I ''I.,,. I
C,7
KOTELINILOV, Vjktor Nikolayevich, kand.takhn.nank; LIOKUMOVICH, KbBtskeil
Khaimovich, kand.tekhn.neuk; PSTRUINA, Kariya Nstve7evna, inzh.;
SHVITWYA, Tamara Petrovna, lnzh.-, FINGER, A*X., pr6pbd~vatel'
takhnikumn. retaenzent; STESHOT. I.I.. Insh., nauchnyy red.; GRACHRVA,
A.T., red.; PLWANNIKOV. M.N., red.; MHMMY, L.Ta., takhn.red.
[Technology of shoe manufacturing] Takhnologiia obuvi. Moskva, Goe.
nauchno-takhn.izd-vo lit-ry po legkoi promyshl., 1959. 602 p.
(KIRA 13:3)
(Shoo manufacture)
PNUUN IA, S. P.
Answer to T. 1. Brosherskil's disaussion on the article* Cause of dis-
plaomment of the transplant following partial free transplantation of
the retina, Vest, oft-, Mo*Ta 32 uo,W)S-W ftly-AM 1953. (OLKL 23:1)
1, Candidate Medical Sol*=@@. 2. Of the We Division of Voroshilovgrad
Oblast Rospital, I
1. PMMITA, I. P.
4. Cornea
7. On the displacenent of a transplant In Partial penetratinp.. keratoplasty. Vent.
oft. 32, no. 1, 1953.
9. Monthly List of Russian Accessions, Library of Congress, 'May -1953, Unclassified.
t9.-- r /? 4J A) I C , 4
PETRUNIC, A.
Yugoslavia (430)
Technology
Portland cement in the p,troleu industr.- P. 3. NAFTA. Vol 3, no 12, Dec 1951
East European Accessions List. Library of Congress. Vol 2, no 3, March 1Q53.
UNCLASSIFIED.
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OCOW. V. I. I PETRUN 142L-AJL-
Www-wwwm~
Classical m1culation of the probability of excitation and
ionization of atoms by electronic impact. Opt. i spektr. 14
no.4:457-464 Ap 163. (MIRA 16:6)
(Collisione(Nuclear physics))
1 1, ~ '' f A t, ~ /-i .~? /I- /
ZOWTAVIII, A.V.; PETRUNIKIN, A.Y.; KBALKIOPOVA, 11.11.
Using high sources in 4a-uVU-~g~ftslizg beta spectrowters.
Prlb.i takh.eksp. no.6:2~,;-JO IT-D 157. (KIRA 10: 12)
l.Leningradakiy gosudaretvenn3ry universitet im. A.A. Zhdanova.
(spectrometer)
etruni,:nev, V,A., Engineer 4
AUTHOR:
TITLE: Arc Heat Flow Distribution in Welding Under Flux .- rtLiire-
delenii teplc)vcg,- potaka dugi ~~ri svarke ioi
PERIODICAL't Svarouhiio.~- Ni- .1, pj~ ~13iR
ABSTRACT: Research on heat flow distribution performed by I.D. Kula-
gin refers only r-Ref 1-7 to surface welding arcs moving
with a hitch 8pet;d - up to l,')OO-m/hour. A new method to
inveutigate the heat flow distribution of a powerful arc-
penetrating into the depth of the fusion Zone W1,8 dOV010POd
on the basis of the Rykalin and Kulagin methods. The
article contains a detailed description of the techno.13gy
of experi mente and gives the mathematical computations
Ref I'r~-eZ36es of heat flow distribution arg
strated by schematic drawings, diagrams and a A
formula for determining the shape of a normally
heal, so.-ce mcv-4nE on a flat metal layer is also (-iven
The f~-.'Io*ing ccn,:Iusiong were made: heat-f'ow Ii3tri-
but~cn depends ~7)n the parameters of the weldin.;-
-Anier flux increased cur:-ent hig?-:er arc -an: a
reduced weldine sieed decrease tie ccricentru*,r;. %t~at-
Card 1,12 flow ~he iA,,c penetrating into +Iae ~e_se meta" 7a_aes
Arc He~,t F' )-p D-sltrit-~+~,cn in We-~.ne :'-:x
-r~ t-)e 17-:3.on zone Data va.3
whi ch makes it 1,~)ss ~, b! e to a ~~ I y the me t~cd of !is' ri u ted
~- J ; r r 11 qThi,-, ,.Tpr!)veq the cal culat iur. of ',.jut * r-ir,
7 es-~;es ~n zonz~~,; mmeliately adacent to tne
-r~ " 4 schematic Ilruw~rlKs, I tci~le a-
vraL-9 awi .' 3 -,v : v treferences.
A3~;()C.IATI ON 1 711, Ii , im~- ta kJ I't'jIi:.l!Crli A A Pay k o v a AN j ~, L; H I
-if MP+ai:ur(-y A.A. Raykov -)f the A~ US-",,R 1
AVAILAPLI~: 1 t - ~i ry t C T-1 i-, r
C a r d
21158
4,
2
AUTHORS. r.otrunin, A. -'~- and ietrunin, :. :e.
TITLE: Test of friction cermets for adnesive bower to
carcasS
?EEIODICAL: Zavr)dsxayu laboratoriya, v. 46' , nl,. 4, 461
TEXT: The authors suggest a method of testing cermets for si.earing in a
system devised by them for this purpose. It is possible tnereby to
control the quality of adhesion of such substances to the steel carcass.
It is stated that an increase of the content of nonmetallic components
causes this adhesion to be impaired considerably. The use of cermets for
heavy duty brakes is thus reduced. The intermediate metal powder layer
suggested by the authors [Abstracter's note: No reference] to serve as
a base for cermets augmented the adhesive power rafter pressing and
sintering) to the steel carcass, and, thus, the servicea*.--'Iity -=der
heavy stress. !~:owever, t-e qu-ality of ad*-es.'zn of va-ri:-as seas
is in this case very difficult to '-Ie evaluated by comparlson. fln~ a
way out of t'ris difficulty, the authors tested annular cermets for z-,-'ear-
Card 112
21158
7'est of friction cermets for ... B
J I.; C In T(- I, t LYE
M"Itchin". -:0 .:1, C, t
breakdown, iir-d t tio or;ofirir,6 ronintanoo Is
v t ruc t i ve r,
rshear - F, F kg, mm Here, F denotes the maximum dF
kg, F is the hrea of' trie cross section of t'-ie annular .7,--tmqe ':.e
of shearing in mm2. "'he effect of' friction may be neglectei- yropare
t lit; otAiiij,1 asi i wkir-k Id octin are Liu I aoted f rom a set of cermot s, I.nJ turn-
od into annular (11kifildo" Willi Oxf.pi-lin) ilitimolorit I - f .'t) I t i, miri q r, : ~L ri
inside diamotor of' 12 1 0.1 mm. 'J'o Indionto tho bron)(lng III 1 "11
a 0-75-mm deep cut is applied externalJy to Lho sampl (3 it I. t tit, l:()%jIi-ij) I y
with the steel carcass. The authors' method not only allows t~,e cor,trol
of adhesion, but also :i more accurate choice of pressure f,~r
Thero io
Card 212
L .3 7 73-66 E.,':T' 'J'A'li CIS
ACCI:5V0W NP- AT',007950
AtITHOPi Davydov, M.
G. A_ Levin, V. 14
V~Trushin. W,
S/0000/64/000/000/0791/019%
S.; Dorfman, 1- G.; Yr~lmov. V. V.1 Zalmanston. V,
Malyshev, i. r.; Peteiln, 1. r,.j Petruni" V. 1.1
timanskly, 1. G.-. Flnk.l'shi-yn. tL-41 -
MIX: Deflecting system of S-Gov anjjZr2ton phannal
SOUPCE: International Conference an High Foerry Accelerators.
Trudy. Ph~*-co-w' At-caTzdatw 1964*. 1141-714-
0.1 Z*jtj#
PoF';-V'-V.
Pubna, 1963.
TorIC TAGS: antiproton, high energy particle, particle heam. histh enemy ac-
c"lerator
ABSTRACT: Specific requirements flowing from the applied principle of particle
resolution have determined the choice of the type of deflecting system. During do-)
velopment of the device the requirements were also considered from the viewpoint
of the high-frequency power supply wyetem. The creation of a high-power 150-owge-
horts frequenry Ap"Pralor that "Palo* with pulses of moveral milliseconds dur&-
tion la a technically complex task. Therefore, special attestion wo given during
the development of the deflecting Opten to Its economy mod efficiency . Taki"q
these CM*ld*rfftiO"S IM6 WCOMt. COMPUtStIOM 9810 Carried OUt Of 8 WdMbOr Of
Urd 1/3
L 3773-66
Arrrsslom 04R: ATS007950
41ternsite~' deflect trip. ftya If"n - It, thr ?tom ivf a tottvtvid eta or hand I I no nporiet Inr. In
the enerry recuperation regimo. or In tbo form of a nyatrm of mAny rAvIty i,r mIng1*7
cavity volua* resonaturs. An shown by tho computations, it to most expottlent to
make the deflecting system In tho form of it net of Inderwn(lently pha.,;Pd renonateyrit
of the quasitomidal type, whirh operate In the ftindamental mode of the- oif-rtric
oscillations. with the use of hirh-frq-quency Ptpctrical field for deflecting the
particles. The report discusses tho renonatorq Poplayed In the deflecting system
and their arrsnRement In the, sYst ". The chnqen resonator form permits one to ob-
tain a specific homogeneity of tho deflecting Hold In the errms section of a beam
by selection of suitable dimensions. The rot-)rt discusses the characteristics of
the developed system. Th* linear dimensions of the sperturos In the retsonators for
channeling the beam are commensurable with th- operating wavelength, which fact
leads to the radiation of electromagnetic energy and to the- appearance of a strong
bond among the resonators. In order to eliminate this phenootmon and pretserves cose-
plate transparency of thee channel for the beam of deflected particles among the
resonators, the vevegulde seegmento awe provided with Limiting wavelength much low-
er then the operating ~"*. and feedback to Introduced in the magnetic field. As
shmm by Investilations, the bond the resonators Is slant completely elimi-
nated. Considerobl* attention was paid to the electric tr*w"rency of the ressons-
card 2/3
L 3771-66
ACrESSIM NP: AT5007950
torn. The field strength in the resonator p,.aps which co. esponds to a given
nitude of the deflecting pulse was determined an the basis of the field pictums
that wrre taken In am electrolytic tank. Corrections were node for the variation
In the high-frequency field during the porticles' flight timis through a reso"ator
end for the difference between the static and high-frequen" Victuvem of the field
in a gap. MeSSUreq "91* 41" taken to ellftinfte in the M~on~tM tte 64COrAMT1
electron rosonmme discharge. Orig. art. hems 2 figum .
ASSOCIATIONt Pauchno-leeledowattl1ekly institat elektraftalch"key apperatery
limpni 0. V. Tefremove GM US& (Scleintific-fteeamh Imatituts of Clo&rephveleel
Eaulment. CKAE SSSA)
GUNITTED1 26NOY64 Cifebt 00 1 us mot I
iso rsr sov, ow MR 1 000
Card 3/3