SCIENTIFIC ABSTRACT KIRPICHNIKOV, I.V. - KIRPICHNIKOV, P.A.
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100
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Publication Date:
December 31, 1967
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SCIENTIFIC ABSTRACT
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AUTHOR* KIRPICHNIKOVoI.V.o OKOROKOVOV.V., SUKHORUCHKIN,9.1. PI - 2306
TITLEs _119-a-greme-R-e-Uf-The Effective Humber of the Fission Neutrons of
Pu* if the Energy of the FiRsioning Neutrons lies within a
Range of 7 to 30 OV. (Izmereniye effektivnogo chisla vtoriabnykh
neytronov Pu239 v oblasti energii perviohnykh neytronoy ot 7 do
30 eV, Russian).
PERIODICALs Itomnaia Snergiiat 1957, Vol 2, Nr 3, pp 247 - 252 (U.S.S.R.)
Receivedt 4 / 1957 Revieweds 5 / 1957
LBSTRA,CTi The authors measured the energy dependence of this-effective
number I a 6.f16-. Here T-denotes the average number of fast
off a
the fission orose-section, 6' - the
neutrons per fission, 6'r a
absorption orose-section.
Experimental orderl The measuring method has already been described
in a former paper. Measurements were carried out by means of a neu-
tron selector. A special scheme of a quartz-ohook-generator was
d:vdloped. An intense flashing up of gamma r&yB from a beryllium
t rget (whjr:by the impinging of accelerated deuterons on the
target is n icated) was registered,by means of a scintillation
counter with plastic scintillator. The momentum of the photo-
multiplier net the generator in operation after formation in the
integral scheme. Measurement of the fission cross-seotion and of
Card 1/3 the flux of the slow neutrons is also discussed. The elaboration
PA - 23o6
Meapurement of the Effective Number of the Fission Neutrons of
N2391f the Energy of the Fiasioning Neutrons Lies within a Range
of 7 to 30 eV.
of measuring results is then discussed.
Measuring resultst The measured values of 6-5 and 6-17 are il-
a f
lustrated in form of diagrams. By comparing the results of the
present paper with the values of T-f/r found by means of a fission
239
chamber, it can be seen that for the resonances of Pu q-does not
change much in relation to the thermal valuese The results obtained
here are compared with those of other authors by means of a table.
The fission effect was measured specially for the range of from
13 to 250 eV. Most of the strong resonances of Pu239 have a marked
fission width with the exception of the resonances in case of 42
and 44 eV which may possibly belong to the isotope pu240#
Conolusionst The radiation width IX is not strictly oonstant,
but changes markedly from level to evel, a fact which must further
be investigated.
In oonsideration of self-soreening of the resonances and of the
contribution of the non-reaonance-dependent term in the absorption-
Card 2/3 and fission cross-section it follows that the data of the present
PA - 2306
Measurement of the Effective Number of the Fission Neutrons of
pU239 if the Energy of the Fissioning Neutrons lies within a
Range of 7 to 30 OV-
paper do not agree with the results of other investigations con-
cerning the determination of energy dependence of the effective
number,r eff of the pu239. (4 illustrations, I table).
ASSOCIATIONt Not gieven.
PRESENTED BYs
SUBMITTEDs 14.7-1956
AVkIL&BLEt Aibrary of Congress.
Card 313
SOY/120-59-4-3/50
AUTHORS:Ignat'yev, K. G., Kirpichnikov, I. V.., Sukhoruchkin, S. 1.
TITLE: A Neutron Spectrometer Usiiig~ "d PoTUTlzed Cyclotron Beam
FERIODICAL: Fribory i tekhnika eksl;erimenta, 1959, Nr 4, pp 25-31
(USSR)
kBSTRLCT: A description is given of a 256-charmel neutron analyzer.
A cyclotron with a vertical deflection of the deuteron beam
onto an internal target is used as the neutron sounce. This
gives high density neutron pulses about 0,1 jAsec long. The
channel width can be 0 0251 1 29 49 89 16 and 32 lisec. The
time interval requir6d is set by a choice of one of the above
channel widths and a delay made up of a combination of one
of the following time intervals: 0, 16, 32, 649 1289 2569
512 1024, 2048 -and 4096 "so. The length of the working
cycle T depenAs on the experimental conditions and may be
one of the following: 512, 10249 2048, 4096 or 8192 "ac.
The best resolution obtained was 0.024 lisee/m. This corres-
ponds to.a flight path of 15 m. The corresponding upper limit
for the energy at which the measurements are carried out is
100 9Y. The total relative error in the determination of the
fligtL,, rime is 0.20%. A brief description is also given of
the method whereby the deuteron beam is deflected on to the
Card 1/2 internal target. Yig I shows a schematic drawing of the
SOV/120-59-4-3/50
A Neutron Spectrometer Using a Polarized Cyclotron Beam
vertical deflection system. in Pip; 1 1 is the deflecting
plate, 2 is the cyclotron beam, 3 is the target, 4 is
the absorber and 5 is the boron carbide screen, Fig 2
shows the circuit of the generator of the deflecting pulses
and Fig 4 shows the form of a pulse of fast neutrons from
the target. The upper curve corresponds to the case where
the vertical deflection pulse is not applied and the lower
curve corresponds to the case in which the vertical is applied.
There are 7 figures, 1 table and 7 references, of which 4 are
English and 3 are Soviet.
SUBMITTED: May 17, 1958.
Card 2/2
11111 Ila"
fig oil
L0759
S/12o/62/ooo/oo4/040/047
E039/E42O
AUTHORS: Veselov, M.A., Golldin, L.L., Kirpichftikov
!-,-, I've%
Lomkatzi, G.S., Sidorenko, je#Ao.
TITLEs Investigation of the magnetic field configuration in
the X-blocks of the proton synqhrotron
PERIODICAL: Pribory i takhnika oksperimenta, no.4, 1962, 212-217
TEXT: The magnetic field configuration is measured in
14 compensating blocks at various levels of induction from
80 gauss up to 8000 gauss. Magnetic field gradients are measured
with an accuracy of better than 0.1% and the displacement of the
neutral point obtained with an accuracy of 0.05 to 0.07 mm..
A plexiglass carriage is located on the magnet p~oles and can
traverse the whole length of the block (1910 mm). This carriage
contains three pairs of permal 'loy probes for measurements in fow
fields and three pairs of coils for the medium and large fields.
The field characteristics are measured at 31 points along the
14 X-blocks. The distribution of the field and its gradient is
obtainea near the axis of symmetry for 5 values of induction
(82, io6, 210, 26oo and 7500 00) and on 6 of the C-blocks at
Card 1/2
S/120/62/000/004/040/047
Investigation of the magnetic ... E039/E420
8400 00. These measurements are compared with similar
measurements on C-blocks. It is shown that displacement of the
neutral point depends on the residual field. Displacement also
occurs in strong fields because of core saturation. The results !r
are presented graphically and discussed in some detail. The
coordinates of the pole pieces with respect to the geodetic markers
are determined to an accuracy of 0.03 to 0,04 mm. There are
8 figures.
ASSOCIATION: Institut teoreticheskoy i eksperimentallnoy fiziki
GKAE (Institute of Theoretical and Experimental
Physics GKAE)
SUBMITTED: March 31, 1962
Card 2/2
RATYVSKIY, V.j IGNATOYEV9 M.G.; KIRPICHNIXOV I.V.; EELYAYEV,, F.N.;
SUKHORUCHKIN, S.Il
Gazwna-ray spectra produced in resonance neutron capture. Zhur,
eksp. i teor. fiz- 45 t0,4:870-874 0 163. (MMA 16:U)
1. Institut teoreticheskoy i eksperimentallnoy fiziki.
IGNATIYEV, K.G.; KWICHNIKOV, I.V.j SUKHORUGHKIN, S.I.
Spin dependence of the density of resonance levels. Zhur. ekap.
i teor. fiz. 45 no.41875-881 0 163. (MIU 161n)
1, Institut teoreticheskoy i eksperimentallnoy fiziki.
ACCESSION NR.- Ap4ol5557 s/oo89/64/owoomono/ong
AUMiOR: Ignatlyev, K.,G.,#* Kirpichnikov, I. V.; Sukhoruchkin* So I.
TITLE: Measurement of Eta and of partial cross sections of U sup 235
and Pu sup 239 isotopes for neutrons of resonant energies
SOURCE: Atomnaya.energlya,, v. 16, no. 2, 19640 110-119
al cross section, partial or4as section.,U sup 235.,
TOPIC TAGS: tot
Pu sup 239, radiation capture cross sections" fission cross section,
nuclear resonance
A'BSTRACT: The authors Investigated the energy dependence of partial
cross sections (for fission rd radiation oapture)-in g wide energy
range, 0.03 to 20 ev for U23 and 5 to 100 ev for Pu239, with a
'Iblinldng" cyclotron beam. The method of measurement is described and
the results are given In tables and diagrams. Numerous res*nances had
been found. A detailed analysis of the results 1i given in other
papers (see Atomnaya. enerxiya,1964, v. 16). The eseential aonolusions~
of the work are!.as follows: (a) there Is a oorrelation of the
'ACCESSION XR1 m4oism
ainplitude signs with the reduced resonance widths; (b) the fission
-width depends-strongly an the spin. m2w authors are gmtoful to
V. V. Pavlov.. V- V, RotM&n. A- X- 301datOV, and A 49 D. Mialtonov for
help with measurements,, and. to the'members of the mathm4tical seam'
tion of the Institute for Theoretical and Rmperimental Pbyalosp
S. P. Borovlev and Ze 1.,Panov," Orig. art., has z11 figtma and 2
t~ables.
e[
iASSOCIATION: none
SUMITM: 22APr63 j)ATE Acq; Latu,64 Emu oo''
4-4.
.NO MIP SOV2,005
11SPB CODE: PH 012t~.,,
C a r-d 2/2
4
ACCESSION NRt AP4020326 9/0009/64/016/003/0211/021S
AUTHORs XJM"Lnik o; IWt'ysvq Ko Go; SukhoruchkLas So to
MLA?__V
TITLEs Interference effects in fission cross sections
SOURM Atomnaya suargLys, v. 16, no. 3, 1964,p 211-218
TOPIC T&GS: interference effect, fission cross section, U sup 235, PU sup 239,
spin resonance, plutonium, uranium
23s
ABSTRAM An interference analysis for a fissLon cross section of,Lsotopes U
and Pu with 41ow neutrons was conducted. Relative signs of amplitude of
reduced widths and degree of interference for highly interfering levels are
obtained. A correlation of amplitude signs Is discoverade The number effectivo,
open fission channels is found near unity for puZ39 and near two for U Coa-
clusions are made on the spins of a series of plutonium levels and relative spin
resonances of U235* The values of average fission level widths with different
spins are obtained* 'Ila coulusLoug the authors are sincerely grateful to i
So P. Boravlev and L, to Panova for help In preparing measuraMt results."
OrLS. art hass 2 tableag 3 Uguresp 4 formulas*
,Card
1rrN'AT'YFV, K.G.; KIR SOLPATOV, A.N.; SUK!'
MURITMIJOV* A.D.
Improvement of the neutron-velocity selector and measurenent
of the first resonances in copper and zinc. Pr-,b. i tep'.h.ek,4p.
10 no.5r5g-60 S-0 965.
1. Inatitut eksparimentallnoy i teoreticheiiov fi7ik! Goau.-
darstvennogo komiteta po ispolizovanJyu atomney energ'-1 S.SSR,
Moskva. Submitted Sept.20, 1964.
/// /P, ?/ C 0 V/ * 51
L., F. 3. -- "Phenombna o,- Recover7 and Aecr
FTRPTC,K'IIK0!I) (stallization in
CoV-Forirted Semifinished Goods From Aluninwn Alloys airing Their
Heat Treatment." Sub 5 Jun 52, Mo3cow Aviation Technological last.
(DissertatLon for the Degree of Candidate in 1echaical Sciences).
SO: Vechernaya '.1oskya, Janu&U December 1952
PHASE I BOOK UPLOMAMON 841
Moscow. Aviatsiounn tekhnologicheskiy institut
Metsllovedeniye I tekhnologlya termicheskoy obrabotki (Physical Metalb, gy
and Technology of Heat Treatment) Moscow,, Oborongiz,, 1958. 179 P.
(series: its: Trudy, Type 31) 3,,200 copies printed,
Ed. (title page): Vishnyakoyp D.Ta., Doctor of Technical Sciences,, Professor;
Ed. (inside book): EXmyavskaya, T.,M.; Tech. Ed.: Ro2hin, V.P.;
Managing Ed.: Zs7movskaya, A.S,, Engineer.
FURPOSE: This book is intended for production engineers,, "Ical metallargists,,
heat-treatment speciallsts,, and other scientific and technical personnel, as
well as for advanced students.
COVERAGE: The book is devoted to the study of properties of hest-resistant alloys,
the effect of steel structure on wear resistance., phase transformations and
recrystallIzation In alloys,, and also the effect of the conditions und r vhieh
alloys are heat-treated on the structure and pyoperties of the alloys, For
references and additional covexagep see Table of Contents,
Card 1/8
Physical Metallurgy and Technology of Heat Trestmnt 841
TABU OF COMMM:
Vishnyakov, D,Ya., Professor, Doctor of Technical Sciences; Maslennikor, B.F.,
Engineer. Study of the Recrystallization Process in EI435 Alloy
The material Investigated vas a nickel-chrome-titanium alloy used in
the manufacture of jet-engine exhaust pipes, Its chemical composition
(in percent) is given as follows: Cr - 20.40; Ti w 0.21; C = OeO5;
Mn = 0,44; Si 0.40; Fe a 0,74; Ou 0,05; Al n 0,04; S - 0.006;
P - 0.004; Ni remainder, The authors, conclusions,, in part., are:
1. It was established that the type of deformation (in tension or in
rolling) does not qualitatively change the recrystallization pattern
of the alloy, 2, At annealing temperatures of 1000-1050*C,, two maxi-
mums of grain growth vere observed: 0,2-5,0% in the case of sma3l
deformations, and 25-60% In large deformations, 3, It was noted that
the critical degree of strain shifts in the direction of smaller strains
with an increase in annealing temperatures. Two temperature intervals were
observed vhere this rule operates; 900-1050*C and 1000-12000 C. 4. The
minimim temperature (threshold) of recrystallization for EI435 is 700*0.
There are 5 references, of vhich 4 am Soviet and I is German.
Card 2/8
Physical Metallurgy and Technology of Heat Treatment 841
grpicbnikoy X S. Candidate of Technical Sciences., Docent, Fwpid Annealing
of-%-eiHHTe-hed~AAicles Cold-formed from D16 and AV (AK5) Aluminum-Alloy
Sheet IT
The author describes thexesults of applying new regime of rapid
annealing for heat-treatecl slusinum alloyse In addition,, be outlines
the principles of designing equipment for rapid annealing,
Vishnyakov., D.Ya,; Figellman,, M.A., Engineer; Trifonova., O.L.,' Engineer,
Some Properties of E1659 Medium-Alloy Steel 34
The author studies the effect of the degree of plastic deformation
and the rate of cooling on the properties of this steel, tested at
various temperatures, This type of steel contains sme" to moderate
amounts of chromium, nickel., tungsten,, and vanadium. There are 4
references, all Soviet.
Vishnyakov, D.Ya.; Vizdtskiy, A,G,p Candidate of Technical Sciences. A
Study of the Wear Resistance of Carbon Steels 43
Card 3/8
23012
10 4 r, 14 16, 14 I-q 19/536/60/000/043/,003/011
0 24 D 5. 2021/9435
AUTHORs !irpichnikovj K.B., Candidate of Technical Sciences
TITLZs Rapid Annealing of A16 WO and Al (Dl) Alloys
PERIODICALt Moscow. Aviatsionnyy tokhnologicheskiy Inatitut.
Trudy. No.43. 1960. PP.38-47. Tormicheakaya obrabotka
i svoystva &tali i legkikh splavov
TEXTs In the annealing of cold-worked shoot and other material of
V16 and Dl (duralumin type) alloys, the recommended regime in first
to heat to 450- 500*C when recrystallization occurs, IfO as a
result of recrystallization, the material in fully softened, then
holding further at this temperature will lead to an increase in
strength caused by an increase in the concentration of the solid
solution an the chemical compounds are dissolved. Samples of sheet
2 mm thick were held at 500*C. Fig,3 shown the tensile strength
Ob, kg/mm2 (top curves) and elongation a % (lower curves), against
the time hold at 500% (in minutes). Rocrystallization is
complete after 7 minutes for D16 and 9 minutes for DI. After this,
solution of the compound occurs and the strength increases. The
approximate concentration of solid solution at various times was
Card 1/8
23012
5/536/60/000/043/003/011
Rapid Annealing ... 2021/2435
found in the followinj wayi samples were homogenized at 280, 330,
36o, 400, 450 and 300 C and the crystal parameters were measured.
Curves of parameter against homogenization temperature were drawn.
RecrystallIzation annealing was then carried out in a normal
furnace at 5000C for I minute (regime OPI), 7 min (0p2),
9 min (0p9) and 12 min (0p12) and in a muffle furnace for
5 min (M5)9 8 min (M8) and 10 min (MIO). The samples from the Vx
first furnace were air cooled and those from the muffle furnace
were water-cooled. The lattice parameters were then determined
and, from the curves already drawn, the "temperatures of
equilibrium concentration" corresponding to the lattice parameters
were found. Plots are included of the -lattice parameter against
the temperature of equilibrium concentrai'.on (tk) for the
different regimes for both alloys. Cc &ing from the
recrystallization temperature to tk (about 350*0 must,
obviously, be fast to prevent further increases in concentration of
solid solution. From this temperature, slow cooling must be
carried out. The influence of the rate of cooling from different
temperatures of equilibrium concentration was also investigated.
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23012
S/536/60/000/043/003/011
Rapid Annealing E021/3435
Samples of D16 and DI wore subjected to a recrystallization
anneal and subsequently heated to 300, 330 and'400*C, cooling from
'these temperatures to 200'C in 10, 20 and 30 min. The measure~d-'
mechanical properties are plotted-in Fig-7 W16) and Fig.8 (Dl).
The top.curves give the tensile strengths and the lower curves the
elongation. The left-hand cur-~es are for cooling in 10 min, the
middle curves in 20 min and the right-hand*curves in 30 min. The
beat results are obtained by cooling from 350*C. Cooling from
this temperature can be cairied out at the highest rate. It was
also of interest to determine the teImperature of the end of itke X
slow cooling. Thia is characterized by a decrease in the rate o
the diffusion processes and was determined by constructing
hardness curves in rela!tion to annealing temperature. Fig.9 shows
this for 516 alloy and Fig-.10 for Df alloy (cur,~,e 1, immediately
-after quenching; curve 2, after 20 days). The temperature
required for the end of.the sl6w coolirig*was 2600C in both cases.
The whole cycle of operations (recrystallization anneal, fast cool
and slow cool) can be carried'out in-20 to 30 min. Engineers
L.N.Volodin and T.A.Volodina participated in the experimental work,
Card 3/ 8 U..
I I N
23013
s/336/6o/ooo/o43/Oo4/oll
9021/x435
AUTHOR: Kirpichnikov, K#S,, Candidate of Technical Sciences
TITLE: Rapid Artificial Ageing of AK6 and A9 fAVI (AK5) Alloys
PERIODICALt Moscow. Aviatsionnyy tokhnologichoskiy institut.
Trudy. X0.43. 1960. pp.48-62. Termicheskaya obrabotka
i evoystva stali i logkikh splavov
TEXTt Experiments were carried out in order to try and reduce the
time of ageing of the alloys AK6 and'AK5. The composition of the
AK6 alloy in: Al - 2.4% Cu - 0-7% Mg - 0.7% Mn - 1.0% Si; and that
of the AK5 alloy iss Al - o .6 to o,g% mg - o.6 to 1.2% Si -
0.2 to o.6% cu - 0,15 to 0.33% Mn - 0.5% ?&-. Innnediately after
quenching, samples of the AK6 alloy were given a short age for
0 to 30 min at 1850C, 0 to 20 min at 200*Cj 0 to 20 min at 2200C or
0 to 5 min at 2400C. After this they were aged for 3, 6 and
12 hours at 155 � VC. Fig.1 shown the hardness (Rockwell A and B)
plotted against the time of ageing at 185'C. Curve I is for the
sample aged at 185*Ct curves 2, 3 and'4 for the samples with
additional age* of 31 6 and'12 hours at 155*C and curve 5 without
the short go at 185 C, Similar curves are reproduced for the
Is amples ag:d at 200*C. Good results are obtained after ageing at
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23013
S/536/6o/ooo/o43/004/011
Rapid Artificial Ageing Z021/9435
185*C for 15 to 30 min and 1550C for 3 hours or more, or at 2000C
for 15 to 20 min and'155*C for 3 hours or more. A short age at
2200C leads to a decrease in hardness. Zxperiments were also
carried'out on multistage ageing of AX6 alloy. Many regimes were
tried and the optimum treatment was found to be to heat rapidly
(40 min) to 2000C, slowly cool (60 min) to 1500C and hold at 150%
for one hour. Curve 1 of Fig.5 shown the changes in temperature
(discontinuous line) and hardness (continuous line) with time
during this treatment. Curve 2 shown the effect of holding at
150% for 3 hours and slowly heating to 190%. Similarly, in
Fig;6, curve 1 refers to rapid'heating to 190*4C and slow cooling to
100 C and curve 2 refers to slow heating from 100 to 190*C.
Similar experiments were carried out with alloy AK5. The optimum
2-stage heat treatmont wan found to be to hold at 200% for
30 min, cool in water, and heat to 1500C for 2 hours. The optimum
multi-stage aigoing treatment was a rapid heat (40 min) to 190*C, a
slow cool to 150'C4 holding at 150% for one hour. The multi-stage
ageing treatments have the advantage over the 2-stage ageing
treatments that they can be carried out in one furnace. The
optimum 2-stage and multistage aigoing treatments of AK6 and AK5
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s/5~6/60/000/043/004/011
Rapid Artificial Ageing Z021/E435
alloys result in an increase in mechanical properties. This'is
especially,marked in th;s case of -1~he yield point which may increase
'by as much as 5 kg/MM2. Fig.10 shows the mechanical properties or
AK5 during ageing by rapid heating to 1901*C,*cooling to 1500C and
holding for 8 hours. The corrosion properties.of the alloys after
the new"againg.treatment.s were tested in-3% NaCl + 0-1% H202-
The results showed thpt the new treatments*gave properties which
were in no way inferior to those after normal ageing. Some of the
experiments were carried out.by Li Tin Son, Aspirant of the Peking
Aviation Institute in 1956 under the diiection of-the author.
N.A.Petrov also participated in the 0:kPeriments. There are
11 figures,, 2 tables and,6 references: 2 Soviet-blcc and
4 non-Soviet-bloc. The three references to English language
publications read as*.follows: H.K.Hardy, Journ.Ins.Metals,75,1954,
part.9, 707; J.A.Ni)ck, J.A.C.Wool, Iron Age, 159,1947, 5-57;
G.Wasserman, Brit.Intelligeitee Objectives Sub. Cotee (Group 2) Pub if
No. H.S.G., 03757, 1946. N
Card 3/7
7-19.9 S/536,/61/000/050/016,/017
0217/0304
AUTHOR. ___jLK21Qhn1kov.. KS,, Candidate of 'rectin-tc,it sckvncvs~, Jn(-nt
f 1'rLE, Ageing characteristics of aluminum allOYS coptaining /a
and 1 -2% MK
b0URCL hoheow, Aviatsionnyy tekhnologichemkxy institu'. Trudy,
no. 50, 1961, Voprosy metallovedeniyu, 165 176
TEXT-~ The ageing of Al alloys containing Zn is characterized by some,
peculiarities which distinguish them frow alloys, in which Zn is net hf,
basic alloying element. The ageing of two Al alloys was inveattgated
(1) containing 5% Zn and 19~' Mg and (2) containing 5'1 Zn and 2% Mg.
Engineers I-M- Semina and N.G. Romanova took part in the experimental
surveyo The above two alloys were prepKred in an electri, iresistan,:P
furnace, Ingots, 190 x 740 x 1300 mm, were made by continuous casting
at 6850C at a teeming rate of 63 on/minute. Theme were hompgerized at
4600C for 36 hours and rolled into sheet of 2.5 nun thickness, In ordo:r
to study the ageing characteristics of the two alloys, kinel-~'c ageing
Card 1/3
Ageing characteristics 0217/A)304
curves were plotted at vgrious temperatures. Specimens veze cut from
the sheet, heated at 450 C for 40 minutes and water quenched. Ageing
was carried out in a drying cabinet. The major port ton of the itivest I -
gation was concerned with the initial stages of ageing (10 12' hourm), L
and only in a few cases was more lengthy ageing studied. The lafte.~ X1,
investigation showed that natural ageing of the alloys proceeds very
slowly. The optimum mechanical properties are attained after approxima-
tely 90 days; under conditions of long-torn ageing, t~o optimum proof
stress Is attained after soaking for 100 hours at 100'C. It was found
that A alloys containing 5% Zn and 1-2% Mg exhibit a retardation in
ageing. This phenomenon is obsorved *hen the alloya are subjected tv
artificial ageing at sufficiently high temperaturo& immediately after
quenching, but not when they are subjected to agt:,rg -3everal hours after
qu#nchingt or when th*y'are hooted slowly. Mg causes the Spinel po-Int
in the thermaloquilibrium diagram to be raiso~d. For alloy (1), tho
SpinO point occurs at a temperature close to 140 0C, and for alloy (1'0,
at close to 2.000C. In the first stage of fb,~ rate F-,t the pro(c-'f.
is due essentially tn the dpgr~,~- of
Card L"13
18.1110 Zros
30932
S/536/61/OW/%,:n./0l7/O17
D217/D304
AUTHOR, Kirpichnikov, K.S., Candidate of Technical Sciencesq Docent
TITLE; Accelerated ageing procedures for aluminum alloys contain-
ing 5% Zn and 1-2% Mg
SOURCE: Moscow. Aviatsionnyy tekhnologicheskiy institut. Trudy,
no. 509 1961, Voprosy metallovedeniyal 177-185
TEXT: Natural ageing of Al alloys containing 5% Zn and 1-2% Mg taken
80-90 days, In order to find the optimum procedures for artificial
ageing, two-stage and multi-stage processes were investigated. The
hardness and mechanical properties of the alloys were studied, hardness
tests being carried out immediately, and mechanical properties being
tested a few hours after the appropriate heat treatment. Engineers
I.M. Semina and N.Go Romanova participated in the experimental procedure.
The mechanical properties were tested on specimens which had been soaked
at artificial ageing temperatures for 5-6 hours, since after short-term
soaking, the storage of alloys at room temperature exerts a strong
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309,32.
S/536/61/000/050/017/017
Accelerated ageing procedures D217/D304
influence on their properties* Two alloys were studiedl om containing
5% Zn and 1% Mg talloy 1) and the otherg containing 5% Zn and 29 HS
(alloy 2). The following proc8dures were chosen for ageing: (1) ageing
Pt AoW temperatures (up to 100 C) + ageing at high temperatures (150-
160 C) and (2) ageing al high temperatures (150-160 C) + ageing at low
temperatures (up to 106%). The specimens were rapidly heated to the
ageing temperatures* Earlier findings were confirmed, namely that the
Opttmum long-term artificial ageing procedure consists In ageing at
100 C for 100 hourse This, however% can be substituted by rapid ageing
procedures without noticeable deterioration in mechanical properties
aad corrosion resistance. The following procedures are recommended
for the above ~wo alloys% (a) a two-stago procedure, congisting in
soaking at 100 C for 4 houraq followed by heating to 150 C and soaking
for 7-9 hours; (b) a multi-at ageaprocedure in which the temperature
i; gained in steps, reaching 160 C within 3-4 hours, and soaking at
1 0 C for 7-9 hours. When artificial ageing is used, the alloys should
not be heated rapidly, as slow heating to the ageing temperatures improves
Card 2/3
KIRPICHNIKOV,, K.S., kand.tekhn.na:uk,, dotsont
Artificial aging of aluminum +oys containing 5#D/o Zn and 1-2 c/o
bt. Trudy MATI no.50M7-285 161. 1 (MIRA 14:10)
(Almminim alloys- -Hardening)
but __UU2336/66/UOUjU0D1VA411VA"
24 CA)
AUTKORS Kinichnikq7t X, 0, (Candidate of technical sciences); Kulskov, V. Is
';nginee
(Knglneer)
ORG: none
TITLEs The effect of microalloying with refractory elements on the structure and
properties of aluminume-alloy sheets containing 52 Zn and 2% Mg
SOURCE: Moscow. Aviatsionnyy tokhnologicheakiy inatitut. Trudyg no. 66, 1966p
Struktura I evoystva aviatelonnykh staley I splavov (9tructure and properties of
aircraft steels and alloys), 147-156
TOPIC TAGS: alloy mechanical property, microalloyingg aluminum sine magnesium alloy#
zirconium containing alloy, titanium containing alloy-1 beryllium containing alloyo
chr9mium containing alloy, manganese containing alloy
ABSTRACT: A series of Al-Zn-Mg alloy Ingots microalloyed with various amounts of
zirconium, titanium, beryllium, chromium and manganese were homogenized at 450-470C
for'.12 hi and extruded into-slabs (100 x 6 m) which were rolled into 0oats I and
3 mm, thick, Sheet spectme*as 30 = wide and 180 = long cut along the direction of
tolling were solution* annealed at 430-435C, water quenched, and then aged. 7heoptlml
aging conditions giving the highest yield 6trangth with sufficient slouption and
high corrosion resistance was found to be 100C for 6 hr + 180 C for 4 bro The
Card 1/2
UNt 669.017069.71--
AT6036424
Initial allay after this aging had a tensile strength of 40.5 kg/=2. a yield strengt:b
of 31.0 kg/mm2, and an elongation of 172. The tests 'showed that hosagenization had
little or no effect on the mechanical properties of Al-Zn-Mg alloys. Small quantiti"
of refractory elements added to the initial alloy had a small but noticeable affect an
the mechanical properties but greatly improved the corrosion resistance, especially
zirconium and zirconium combined with titanium. The mechanical propertied of alloys
microalloyed with Zr or Zr + Ti were:tensile strength 45.2 and 39.5 kgl=2, yield
strength 39.0 and 35.8 kg/mm2p and elongation 14 and 17.2Z, respectively. The
initial Al-Zn-Hg alloy had a very low resistance to stress corrosion when naturally
aged (service life 6 days) and low corrosion resistance when artificially aged (ser-
vice life from 42 to 76 days). In the majority of cases, xicroanoying Increased the
service life up to 200 days. The beneficial effect of refractory metals on corrosion
resistance increased with higher alloying. The effect of microalloying on the tm-
perature and kinetics of recrystallization was insignificant* In the initial A140-ft
alloy the rectystallization was coupleted during basting to about 320C. In alloys
containing 21rconlum, khe recrystallisation began at 310C and was not tomplato at $W
OrIgs arte host 4 figures and 2 tablest,
SUB ODDSt 11 131 SUNK VA33 1~ nw~/ OUG Of$ '003/ ATO FMIA. 5107
2/2
ACC N- AT6036425 W SOURCE CODE: UR/2536M/000/065/0157/0165
AUTHOR: Xtrpichnikov. K, S. (Candidate of technical sciences); Kulakov, V. L (Engineer)
ORG: nono
TITLE: Effect of adding minute amounts of refractor, elements on the structure and proper-
rp
ties of ingots of aluminum alloy containing 5% Zn and,, `% Mg
SOU11CE: Moscow. Aviatsionnyy tokhnologichoskly ir stitut. Trudy, no. 66, 1966. Struktura
i svoystva aviatsionny" staley i splavov (Structure aid properties of aircraft stools and
alloys), 157-165
7
.inc containing alloy, magnesium &,)ntainina alloy,
TOPIC TAGS: aluminum base alloy, refractory me al, metal grain structure, metal
property/A00 aluminum
ABSTRACT: 25 ingots of AOO aluminum combined with 5% pure zn and 2% pure Mg and minute
.unounts of various refractory elements (0. 005-0. 1% Zr, 0. 005-0. 1% Ti, 0. 005-0. 1% Be,
0. 005-0. 050% Cr, 0. 005-0. 060% b1n) were subjected to microstructural analysis and rnochani-
cal tests. Part of the ingots was homogenized in a furnace with forced air circulation at,150-
470*C. It was established that aU these elements, even if added in minute amounts, markedly
r-PA 1/3 UDC: 669.017:669.71
ACC NR, AT6036425
r
influence the structure and properties of the ingot. Zr in amounts of up to 0. 05 at - % increases
the size of the macrograin, reduces the size of the dendritic cell, slightly enhances the hard-
ness of the inrot and microhardness of the solid solution in homogenized state, and reduces
humogenization time. TI, *like Zr, also reduces the dimensions of the dendritic cell,
but unlike Zr, it has an opposite effect on macrograin size, hardness, microhardness of the
1 solid solution and homogenization time. Be sharply reduces the intracrystallino so-rogation
0
and homogenization time of the ingot. The effect of Be in many cases coincides with the effect
of Zr and is opposite to the effect of Ti. Thus, e.g. Ti reduces the hardness of the AI-Zn-.mkg
alloy in cast state by 4-5 H units, whereas Be increases hardness by 3-5 units and Zr also
B
f increases it, though to a less significant extent (Fig. 1). This may be to some extent attri-
butable to the fact that Zr and Be have motallic radii which sharply differ from the motallic
[.-neutralized.
radius of Ti, whereas the metallic radius of Ti is similar to that of Al. In the ingots to which
more than one refractory element was added,
the observed effects were diluted if not
Orig. art. has': 5 figures, 2 tables.
2/3
ACC NR& AT6036425
H
B
$2
r
?-
o additional elements
fiz tCr
ri
"i +Cr
Fig. 1. Mean hardness of the AI-Zn-",LMg alloy in cast state as a function of its
content of additional elements
SUB CODE: II/ SUBM DATE: none/ ORIG REF: 003
3/3
Content of refractory elements in at.%
b k f Ic 1, '/.
KIRPICHUXIOV, L.A., inihoner: MARV. M.L. Irkshener.
I
'"~~Fo~ec'fid norms for artificial illumination of sea ports. Svototskhniks
3 no.M26-28 0 157. (XrRA 10:10)
1. Chernomorproyakt.
(Harbors) (Lighting)
MTICIOITKOV, L. A.
SIMITIV, A.S., Imn4tdat takhntobeskikh nouk; XIRPICHIIIOT LsAo Inshener;
LITVAX. L.T.. kandidat tekhntcheskIkh nauk.
Placement of condensers in Industrial plant circuits to increase
the power factor, Prom.energs 12 no.6:21-24 Je 157. (MM 10:7)
(Blectric circuits)
K2E!jjMAMjk"Insbsaet; XUARIF, Molo, lushener,
Characteristic indlose for systems supplylog electric power to "a
ports and ship repair plants, Prom* suerge 12 no-7rl5-19 J1 157.
(Ilectrio power) (MM lots)
- I
e:~ .4
EIRPICHNI]COV, L.; IMARIY. M.
Electric cable feeders columns In harbors. Mor.flot 17 n0-10:15-16
0 157. (MrRA 10:12)
I.Zameatitall nachallnike, otdols, Chernomoprorakta (for Kirpichnikov).
2*Starshir inishener otdola Chernomorproyakta (for Xharif)
(Harbors-2quipment and supplios)
(Electric cables)
URPICIP11KOV, ~..A.. inzh.: KWIF, H.I., Inxh.
.
%w control circuit for outside ligbting of industrial enterprises.
Svetotekhniks 4 no, 8:21-22 A& 15% (MIRA 11M
1. Ghernonor~royekt.
(Yactories-Lighting)
SOV/C4-58-8-10/22
AUTHORS: Kirpichnikov, L. A., En6ineer aLd Kharif, 14, 1,, Eni;lneer
TITLE: Syste~m for Gantry Craner, In
Ports (SiBbema elektrosnabzheillyb port(tl~nykh kranov v
portakh)
PERIODICAL: Promyshlennaya, Snergetika, 191k', Nr 81 PP 25-2,7 (USSR)
ABSTRACT: Existing methods of electricity supply for cranes and
other electrical. equipment in ports are described. SupTly
pillars and flexible cables are com.-Aonly used and the
sub-stations are at least 120 metres from the load so
that very heavy cables are required. With the object of
improving electricity supply systems ill T)orts the -_ulthors,
to6ether with Engineer A. F. Zhuravlev, developed a clystem
of electricity supply to gantry cranes and other power
conE~uLaers on wharves which is bused on the folloiaijii~
principles: transformers of up tq 560 kVA ara installed
directly on the wharves; cable li'nes laid in line
the wharves are replaced by bare busbars in 0, ChEillrlel.
The transfomers are installed in cp~~clal cha,,:,,berE; belo,.1
the level of the wharf and betvvecn railv:ay tracks. The
tr,ansf oriaer chambers are nat-u-,.,,-j1ly v,~nrjJ !,%, tc-`L . If power
Card 1/2 ~ I
consumption on the vharves 1.. t i-,,f sf c,.i*_.er.,, arf.'.
4:-()V/Q'-'-5B-8-l0/22
An Electric Power Supply System for Gantx,y Cranes in Porta
installed every 150 metres, The ,;ub-statioas ~,upplyin~;
the transformers are relatively few and far between and
contain the prot-jeCtive and measurii16 equipuent. The
transformers are fused on the hi6h voltn6e i3ide and h.-ivt!
an overload relay on the Roil- volta6e side. Vie
transformers are connected to the busbarb throubli three-
pole isolating; switches. Dia6rammatic views of the
power supply arran6ements in wharves are 6iven in F16sj
and 2. Technical and economic calculations were made to
compare this system of electricity supply with the usual
one: the economy of capital was 30%, the cozisuzni,tion of
non-ferrous inetal was 2..2 Limen lesc. the power conslLaptiun
15% lese. and the operating costs 21% less.
There are two fiE~ures,
ASSOCIATIM: Chernomorproyekt
Card 212
KII]PICHNIKOV, L.A., Insho; XMIY, X.I., insh.
---r-
Floodlight illumination part facilities. Syetotekhnika 6
no.1:25-28 Ja 160. (MM 13:5)
1. "Chernamorproyakt," Odessa.
(Harbors-L41bting)
KIRPICIRMOV, Leonid AleksandroyLShA KHAMFj )40is*Y Izrvqlevich;
MRSK271 retesnzent; KORISMSM9 N.D.# inzb.,
retsenzentl X01MMOSM, N.D.9 insh., retsenzentj TAROSMKOf
Mop inzbop insb,p retsenzentj BOUCHENKO, V.79.., inzb..,
nauchayy red,j LAPINAj Z#D.p red. izd-va; SARAYEV, B.A., tekhn
red,
(Automatic control of transshipment machinery and the electric
power supply network in sea portal Avtomatizataiia peregruzooh'-
r7kh mashin i elektricheskikb setei v morskikh portakb. Mo-
akva Izd-vo Orlorskoi transport," 1961. 147 p. (MIRA 150)
(Cargo handling-Equipment and supplies)
(Electric power distribution) (Automatic control)
KIRPICHNIKOV, L.,Ao; KHARIFg M.I.
I
Automation of 6 to it kv. distribution networks* Prom.energe 16
no.6:19-23 Je 161. (MIRA 15i1)
(Harbors) (Electric substations) (Automatic control)
MPICHNINOW9 LA,, inshe; KH&RIF., X.I., insho
Experience in the use of bus conductors in electric power
distribution networks of sea horbor pears. Prom. energ. 18
no.6&8-11 is 163. (KaU 16:7)
(Mlsotric power distribution)
(Harbors-4Ueotrio equipment)
XIRPICHMOV, L.; MRIet M.
Design of electric 4'etvorks for b%rbor piers. ~br. JM ot 23 no.3:
17-19 It 163 (KIM 16:3)
I* Nachallaik otdola Chernomorniiproyekta (for Kirpichnikov),
(Harbors) (Electric netvarks)
KHRIKUS, Samson Solomonovichq kand, tekhn. nauk. dotg.; KHARIF, Moisey
[Electrical equipment and automatic control of hoisting
and transporting machines] Elektrooborudovanie i avtoma-
tika pod"emno-transportnykh mashin. Moskva, Trnnnport,,
(MIRA 18:12)
1965. 377 p.
KIRPICHN3XOVA M. E.
"Yomaldehyde Method of Drying, Plants." Priroda,, No. 9,, 1948
KIRPICHNIKOV,p M. E.
1948 "Problem of a Quantitative Analysis of Plant ~'ystems," Botan, zhur.j, 33.p No.3,
KIRPICHNIKOV, H. ]&~-
KiRPICHNIKOVO M. I. Vospominaniya Ob A. A. Grosegayme (BoUnik). Botan.
Zhurnalt 1949s No. 3, 3- .337-39-
S0: Latopial No# 30s 1949
KIUICHITIKOV,, M. E.
"NoteB on flerborizatiob,l, l,no Botan. zhur.., 33, flo.), 1949
XTMICIPTITYMIP Y. I!.
Artic 1'tpJ-ons &Botany
X
"Konarcrv lecturesIt and the V. L. Yonarov -rie for 19~1. 7ot. 7,hur. 37 :1 . 149 1952.
Yonthly list of AisMan Accessims, Library of Conrress, "crorerber 1952.
XMIGHNIXOT, N.A.; MEN, D.T.; SKINNOVA. N.V.
Gros#gelm, 2888-1948. Hooky&, lxd-vo Akad.nauk SSM
1953. 127 P. (XLRA 6:11)
(Goresgsis, Alskmandr Allfonsovich. 1888-1948)
(Bibliograpbr--Grovegois, Alsksandr Allfousovich, 1888-1948)
(Orosegels, Aleksandr Allfonsovich, 1888-1948--Bibliograpb7)
(caucalms --Botany) (Botany-caucamus)
KIRPICHNIZOV, U.N.
.W.P. Min; obituary vith one picture. Bot.zhur. 38 no.2:296-298 Mr-Ay
153. (XLRA 6:6 )
(lUdin. Wrii FiLvlovich, 1907-1952)
KIRPICMIKOV, X.1,
First meeting on the phylogany of plunts in the All-Union Botknical Socie-
ty. Dot.zhur. 38 no.2:311-313 Mr-Ap 053. (KLRA 6:6)
(Phylogeny (Botany))
/r/KPICAwro",
3HIMIN, B.S., redaIrtor: IMMOV. An.A.; XTIMMUSKUO."; SMBM-
10, K.Ye., redaktor; AROW, R.A., tekhnioheskV rodaktor.
[Manual on the classification of higher plants] Spravachnoe posobie
Vo sistexatIke vysshikh rasteall. Vol. 1. Yedorov, An.A., Kirplohni-
koT, M.N. [Abbriviations, standardized terms, geographical names]
Sokrashchouita, uslovays obosnaahentia, geogrefichookle nazyguila.
Pod obahchel red. B.I.Shisbkina. Hooky&, Isd-vo Amd. nauk 38M
1954. 109 p. [Kiarofilal (MM 7:11)
1. Oblon-korrespondent Akademii usuk SSSR (for Shisbkin)
2. Akademiya uxuk 583R. Botanicheskiy institut.
(Botany-Class if icat ion) (Botwq- -Terminology)
MAYMEIY. P.7.; SHISHM. B.I., redaktar; ItIRPICEMIRTI.N.1-1-1. rsdAktor;
HUSHM, Ye.Yu.. redaktor; IUIOV. N.T.".ni"91MINTU'redaktor;
CHUNATITA, Mo, tekbalobaskiy redaktor.
(Flora in the oentral zone of Buopoam ]best&] Flora erednei polosy
evropelskot chasti SSSR. 8-* Ispr, I dop. Isd. Pod obehobei red. D.K.
Shishkiza, Koskva, Gov. Izd-Yo Sel'skokhos. lit-ry, 1954. 911 p.
[Kicrafils) (MLR.L ?:1l)
1. Chlon-karrespondent Al-dissit sank SM (for Shisbkis)
(Botany)
IMI-OHNIKOV. M.3.
Bibliographical reference on the most significant standard specimens
(exelocatas) of flora of the U.S.S.R. Pot.shur. 39 no.W616-6U Jl-
Ag 15 4. (MLPA 7:10)
1. Botautoheatty institut tin. V.L.Komarovs, Akadamii nauk 6381, Lenin-
grad.
(Bibliograpby--Botany) (Botany--Bibliography)
YJDCROT, Al.A., KIMETCHNTKQX- X. HMO, S.T.; BARANOV, ?.A.,
radaktor redaktor Isdatellstva; XIRXMX&U. A.A..
takhnichaskLy redaktor
(Atlas of descriptive morphology of the higher plants; leaves]
Atlas po opisatellaoi morfologil vyeshikh rastenii; list* Pod
obehohat red. P.A.Baranova. Moskva, Isd-vo Akademii nauk SSSR,
1956. 301 P. --[Xodels for the determination of principal laminar
forms] Shablovy dlia opredelenila osnovnykh form plastinki list&.
6 1. (in pocket) (MM 919)
1. Chlen-korrespondent Akadsmit mauk SSSR (for Baranov)
(Leaves-Morphology)
SHIMIIV, B.I.; ZIRPICHNIKOV, N.A.
';". ~.- ~ -. :, -- -
Concerning professor N.C-.'-^MnVshev'm ravlev'of
book "flora of the central zone of the Juropean
shur. 41 no.3t420-421 Xr 136.
(Botany) (Maevskit, Petr Yellksovich)
P.7. Xaevskil's
U.S.S.R." Bot.
(X= 9:8)
72DOROT, AN.A.; LINCOVOUT, I.A.; XMICHNIZOV, M.N.
In the tropics and subtropics of China. Bot.shur.41:i233-1262 Ag
156. (Wak 9:12)
1. Botanicheskiy Institut iment T.L. lomarova Akademii nauk SSSR,
L-ningrad.
(Tunnan ProvInce-Phytogeography)
ZIRPICHNIXCN, NJ.
"Flora of Leningrad Provincel, no.l. Reviewed by X.R.1irptchnikov.
Botothur.41 no*4:382-3Q3 Ap 136s (MM 9:9)
l.Botanichemkiy Institut Iment V.Lolromarova Akadmli nauk SSSR,
Leningrad.
(Leningrad Province-Botmay)
Bonn with regard to the concept of genus, particular7
in the composite family. Bot.shur. 41 no,10:144-6-1458 0 156,
(MLRA 10:1)
1., Botanichookly Institut imeni T.L. lomarova Akadevil nauk SSSR,
Leningrad.
(Compositas) (Botany--Classification)
MWISOVA. G.A.; ZAKHAR31VICH. S.7..- IMICHUIXOTO M.A.; CHAGIN, A.As;
HrMYRY. N.A.; XISHXIN' B.Ae Ldeceased ; MISMUUA, A.Te. [deceased];
HURAVITIVA, O.A.; SOI(OLOVSXAYA. A.P.; FIMOVSKAYA. Te.F.; SHISHKIN.
B.N., prof.; PITROVICHUA, O.L., redl: YODOIAG.111A, S.D., takha.red.
[flora of lAningrad Province] flora Ionincradekoi oblasti. Ort.
red 0-B,X.Shishkin. Cleningrad]. no.2: 1957. 240 P. (MIRA 11:3)
1. laningrad. Universitst. 2. Chlon-korrespondent Akadexii nauk
R (for Shishkin)
(Imningrad Province-Botany)
BARANOT, PA*, otvststvsna~7 red.; SATICE, T,P-,, red,,; SHI BA9, red.;
KntM,H=OTq,.MJe, red*; YAJrOVWA* TeXe, red. Isd-va; ARM. P.A.,
-ii red,
-taid *
(Problem of species in botarq] Probliza vida v botealks. Red.
kolieitia: P.A. Baraw I dr, Mdakn, Izd-vo Akad. a&* SOM.
Tol.l. 1958. 316 P. (MM 1129)
1. Alrud miya nauk SSM Botanichaskiy inatitut. 2. Chlan-karre -
spondent Aked aii nank SSSR (for Baranov).
(Botaiw-Massification)
FEDCROV) A. A., Dr. biol. Sol.,!KWICEUMP M. E., Card. Biol. Sol, and
AIRTYWHENRO., Z. T.)
"Atlas to the Descriptive Morpbology of Higher Plante"
for this work)tthe authors were avardoa the pr6ze imeni V. L. Komarov. BY Aced. ScI.1
Priroda, 1958, No. 2, 113-114 W7
xMPIr.", IKOVO N.J.
--1. 1. regulating botanical teminology in the morphol
of higher plants. Bot. shur. 43 no. 5:745-749 My 058. (HIU 11:7T
1. Botanicheskiy institut im. Y.L.Komarova Akademit nauk SSSR,
Leningrad.
(Botacy--Terminology)
BORISOVA, A.G.: BOCKAYSIV. V.P.; VASILICHINIO, I.?.; OOUMKOTA. T.Y.:
GORSHKDVA. S.G.: uRuBOT, T.J.; KIRPICHNIXOT, N.A.; SHDL'rAXIVDTA,
L.A. - TA XAI CHUN, S.G.; TfiVILIT, N.A.; TSVIWOVA, L.I.; TUZJP-
CIPJK, S.V.j SHIMMIN, B.1f., redatoma; BOBROT, Te.G., doktor
biol.nauk, prof., red.: SHIRWYA, A.Y., tekhn.red.
[Compositael CoMmitas. Moskva, Izd.-vo Akad.nauk SSSR, 1959.
630 P.(Akadeniia nauk SSSR. Botanichoskii Institut. Flora
SSSR. no.251' (MIRA 13:4)
(compositae)
KIUICMIIXOV, M.A.
Two now m.Aweed species of the cycle Gnaphalium alginosim L.
3.L. Bot.mat.Gerb. 19:349-355 159. (MIR& 12s8)
(Cudweed)
KIRPICHNINDV, H.M.
.-I.- --i,-1--,
What to Hallchrysum lavandufollum ("lavandulaefoliumn) Auct.?
Dot.mut.Gorb. 19:336-357 159o (HIPA 12s8)
(Holichrym)
KIRPICHNIKOT, M.N.
r- Sergai Vasillevich IUsepchuk; biographical data and a brief analyvis
Bot. shur, 44 no-7:1028-1040 JI 159. (MIRA 12:12)
1,Botanichookiy Institut ims V.L* lomarova AN SSSR, Leningrad.
(Iusepohuk. Sergel Vasillevich, 1893-1959)
KINPIOMrIKOV, N.A.
Brief survey of specie* of the genera Gnaphalium Le
(Amend.), Synchaeta lirp., and Omalothaea Cans. occurring in
the U.S.S.R. Bot.mat.Garb. 2Os296-313 l6o,
(KIR& 13:7)
(Cudweed)
A survey of specless of the geums Helichrysum Xill. corr.
pars. occurring In the U.S.S.R. Bot.wat,Garbe 20:314-336
160. (KIRL 1317)
(E~lichz7lum)
AFAWIrEV$ K.S.; DWHAWSEVj V.P.1 VASILICHENKO,, I.T.; GOTSHKOVA, S.G.1
WIN -1:3RPICHNIX
.. M.M.; KWICHNIKW,-W INORRING, O.E.; KUPRIXANOVA, L.A.;
POM)IMVA9 M.U.; -PO=(Nt P3.1 FUUMOVAO A.I.; SMOLIWIXOVAp LoAq
FEDOROV,, An*A,j TSVMKOVA., L.I.; TSVEM., N.H.1 SHISHKIN., B.K.
KOMARCVp VA., akademik, glavmy red.; BOEROV, red.tomm; SHISi6j B4101
redoisdol SMIMOVA, A.V.s Ukbuored.
[F.Iora of the U.S.S.R.) Ylora SSSR. Moskva, Isd-vo Akad.nauk
SM 1961. 938 p. (Plora SSSR, vol. 26). (KOA 15z2)
lo Chlon-korreepondent AN SM (for ShisWdn).
(compositas)
ICII
FEDOROVy Alsksandr Aleksandrovich) KW-ICHNIKGVI Moisey 311yevicb
ARMSHWOp Zinaida Trof BAILVIOV, WN-SL,
R.A#j rekhn. red.1 SMOVA, A.V., tekbn, red.
[Atlas on the descriptive morphology of higher plants; stem and
root] Atlas po opiBatellnoi morfologii vyashikh ruatenii-S otebell
i koren'. Pod obahchei red. P.A.Baranova. Moskva,, Izd-vo Akad.
nauk SSM9 1962. 349 P. (KIRA 15:7)
1e Chlon-korreepondent Akademii nauk SSSR (for'Baranov).
(Botany-Morphology)
ARTYUSHENKO, Zinaida Trofirovna; KIRPICIRIIKOV, M.E.9 otv. red.
BELKIIIA, M.A.0 red. izd-Vi,-VI?IOGRADOVA, II.F., tekhn.red.
[Bulbaceous and cormatose plants for outdoor growing) Lu-
kovichrqe i klubnelukovichrWe rasteniia dlia otk.-Itogo
grunta. Moskvaq Izd-vo All SSSIIp 1963. 44 p.
(MIRA 17: 1)
(Bulbs) (Plant introduction)
KIRPICIINIXOV, M.E.
Study of the local sTe3len of the generr (lic irbil.A Wal'.r. and Caphaler-
rYnchUs Boiss, Bot.mat.Gerb. 22002--iV 163.
Two now spnIes of the genus Steptorhrtmphus bez, lbid.018-326
(MIRA 17t2)
KIRPICHNIKOV, M.E,
Transliteration system of geographical names by Latin letters (for
botanical purposes). Bot. zhur. 50 no.1:82-85 A 165.
WIRA 18:3)
1. Botanicheskiy institut Imeni. Komarova AN SSSR, Leningrad.
IZBEDKV, D.V. 1.1ga
.1SIMI.X0.va X.E.
Sergei lUllevich Lipshito, 1905- ; on his 60th birthday, Bot,zhur,
50 no.1031469-1480 0 165. (MIRA 18sl2)
1. Botanicheskiy institut imeni Komarovs. AN SSSR, laningrad.
I
BDRlSOVAq A.G.; VASWYFVj V,N,j VASILICIVIKO, I.T.; KIRPICH41KOVj M.E.1
VII.
LFONOVA, T.G.; LIPSHITS, S.Yu.; TSVELEV, N.N.; CHEPJTANOV, S. .1
SHISHKIN, B.K. [dpc,,ss,-di; BOBROV, Ye.G.,, prof. doktor biol.naukq
red. toma.
[Cichorioldpan.] CichorloidPA'. MoskvA, Izd-vo flanka, 1964. 796 P.
(F2orn SSSR, vol.29) (MIRA 18t2)
KIRPICHNIKOV, O.B.; VOLIMAN, V.0.
Use of a VICKhOM penetratometer for determininr soil density up to
60 cm. Trakt. i sellkhozmash. 31 no.l2tl8 D 161. (MIRA 15il)
1. Spetsiallnoye konstruktorzkoye byuro zavoda im. Oktyabr'skoy
revolyutsii.
(Soil mechanics)
XOSKATOV. P. 1 71, 0, Go; BMW YN, As: KLLITSIV, B.;
DONSKOT, Go: lAWMlff, Be; XOISXW# P.; SAKOrWY, Po; SHIMMY, I*;
NAUGOLINOT* A.; PAPONOVI No; GCMWW# So; SWLI7VMCIY. Go;
Gaumwo So
IA.T. Remizov. Prof,-takh, abr, 15 no,4:3 of cover Ap 158.
(Remizov, IAlmy Terentlevioh, do 1958) (XINA 110)
KIRPICHNIKOVI P.
Most important problems In the improvement of vocational and
technical education in the Russian federation, Profe-tekboobro
17 no.2sl-5 If 160, (MINA 13W
1, Nachal'alk Glaynogo upravloniya professionallao-takhnicheskogo
obrazovanlya pri $ovate Minintrov N.SM*
(Technical education)
KrRPictlNiKpV, P.
C,.: rt..Ir:' r, in Wic now -.choocll ycar, 'rof
L-,_r..,vlor-ya :-roi.'
_CTAiim- rrl Sovct~_- '!ix-.'.otrov
(Vocaticnal ctaicatlor)
S/138/60/000/010/008/008
A051/AO29
AUTHORs UnLo~cv# ~P.A..
TITLE: Means for Improving the OrganizAtion of Synthetic Rubber Plants
(A Discussioii)
PERIODICALs Kauchuk i Rezina, 1960, No.10, PP 46-50
TEXT: The author lists a number of measures directed at improving the
synthetic rubber industry and problems to be solved. In many synthetic rubber
plants smaller shops have been amalgamatedq the number of laboratories and
designing offices increased. These steps are regarded as initial ones leading
to further moves in this connection. Major faults of the existing structure
in plant administration are exaggerated subdivision of the lower worker units
and inefficient employment of the huge force of technicians and engineers,
Sometimes there are as many as 20 engineers and technicians to 100 workers in
each plant. The author suggests reorganization of the synthetic rubber plants
in the following mannert 1) Enlarging the existing plants to the extent of
those producing a large variety of elastomers and other polymer materialsp
since their production is based on similar methods. Fusion of the Yerevan'
synthetic rubber plant with that of the "Polivinilatsetat" is recommended since
the h ve their source of raw material in common, and also to affiliate the
C:% U5
S/1301"0/000/010/008/008
A0517AO29
Means for Improving the Organization of Synthetic Rabber Plante (A Discussion)
alcohol-manufacturing plant nearby to them. This would simplify administration
problems. The production of polystyrene is suggested for the Voronezh
synthetic rubber plant. 2) Enlarging the already existing shops in the plants
to include complete technological cycles. As an example it is suggested combin-
ing the alcohol, catalyst and contact shops into one. 3) Comining the work of
the repair and mechanical shops into one, liberating the engineering and
technical staff from these tasks. This would accelerate the modernization and
automation of equipment and the production of new non-standard machinery
directly in the plants- 4) Simplifying the quality check of semi-finished
products and technological processes by allotting these functions to the machin-
ists instead of laboratory workers. Eliminating the double work of raw materi-
al checkers, already performed by suppliers. These measures would improve
production and liberate space for research and designing. The author opposes
the transfer' of research and experimental laboratories to the universities
and their branches from the premises of the plants as being another link-
forming cause between science and industry, instead they should have d1mct aooess
to each other. It ii Fuggested called upon scientists from the various in-
stitutes of the AS USSR located close to the plants for help in solving
Card 2/5
3/138/60/000/010/008/008
A05l/AO29
Means for Improving the Organization of Synthetic 1hbber Plants (A Discussion)
numerous technological problems. The need for large scientific research
laboratories for solving greater problems is not renounced. For example, the
question of the synthesis of ois-1,4-butadiene rubbert etbylene-proplylene
rubber and rubbers for special use would be dealt with at the institutes, The
administration of the plants should be in the hands of qualified chemists with
experience in research and sufficient knowledge of the technology. This would
facilitate the introduotioh of new techniques and slastomers, synthetic materi-
als and new uses of the latter. The administration of the plant is recommended
In the following mannert The main director is responsible for all the activity
of the plant, the technical and commercial directors take over internal affairs,
allowing the main director more time for the general development and improve-
ment of the technical and economic achievement of the plant. The plant's
institute (the main research laboratory) would be under direct supervision of
the main director. A technological group in the research laboratory would be
responsible for registering facts for organizing further scientific research.
The plant's institute would also serve as a school for training personnel. The
technical director would be responsible for operations through dispatchers and
the heads of production would be responsible for introducing techniques. The
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S/138/60/000/010/008/008
A051/AO29
Means for Improving the Organization of Synthetic Rubber Plants (A Discussion)
technical checking department should answer for control of quality and introducing
new applications for the products. The commercial director is responsible for
all the financing and business administration of the plant, including supplies
and advertizingg especially of now products. The heads of departments must
insure fulfillment of production quotas and plans, the introduction of new
techniques and carrying out of scientific research. Fig-2 represents a diagram
of the production administration of an enlarged shop. Qualified personnel should
be in charge of operations and resiaroh- engineers in charge of improving teohno-
logy, chemical control of processes, etc. Regarding the designing of the plantg
the head engineer should also be a research worker. It is further recommended
that regional and project institutes be combined into scientific centers of
chemical techniques. Finally it is pointed out that personnel in responsible
positions without graduate qualifications should be given the opportunity to
complete their studies. There are 2 diagrams#
ASSOCIATIONt Kazanskiy khimiko-tekhnologicheskiy institut im. S.M. Kirova
(Kazan' Chemical Engineering Institute im. S.M. Kirov).
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011381601000101010081008
A051/AO29
Means for Improving the Organization of Synthetic Rubber Plants (A Discussion)
Figure 2: Head of Production
/Candidate of Science,
Re- I Shift I lRegistration
Control-Analyti-
tory
Card 5/5
5/01 901/00ANIVOW01);
KVICU AIWAIAS
PUWWIOT, M. T., Tokar"S. L. a.. Temba'-vo. 0. M.. W~kr.". 2.
X. ,.. KIrpl-medhow. F. A.
MAI A MUNd for ofil ties ftbor-formins
FMOMCALe ftullaten' Isabrotenly. me. 19. 1961. 40
TvTj Clam* 29b. %0. Pa. 1415A (6X59V2) of Few.&" 6. 1961). A
ad for WIP4 filmir-formIng by pollemlone.-tion af
md OV41ww glytol. dMININtahot by the f.9% tr.-, In -40,
to Increase Ww revistan" at 11IM p4wr and fiber to hot%. air &M eater. U.9
polleandonsation is saMod ImA In the prosome of alkyl pmosphit" is ammawnts
up to 0,1% of the volght at the used.
C.ra &A
XMPICHNIKOV, P.A.; KUZ'MINSKIYO A.S.; POPOVA, L.M.; SPIRIDONOVA) V.N.
. ....
Alkyl aryl eaters of pyrocatecholphosphorous acid,, now stabi3lsers
of polymers, Report No.b Synthesis of alkyl aryl esters of
pyrocateoholphosphorcua acid. Trudy KKHTI no.30347-51 162.
(MM 16slo)
KIRPICHNIKOVI P.A.; KRASILINIKOVA, Ye.A.; SARATOV, I.Ye.
Some unsaturated asters of phosphorous acid. Trudy KKHTI no.30s
52-57 162. (KERA 16slo)
KADYROVA, V.Kh.1 KIRPICHNIKOVp P.A.; TOKAREVAp L.G.
Synthesis of organophomphorus stabilisera of polymers. Trudy
KKHTI no.1008-62 162., (MIRA Milo)
KIRPICHNIKOV, P.A.; KORNEY, I.V.
Preparation of latexes by copolymerization of vinylidene chloride
with butadiene and 2-methyl-5-vinylpyridine at low temperature,,
and some of their properties. Trudy KKHTI no.30i174-177 162.
(I-IMA 16slo)
S/019/6Z/000/017/021/054
A154/A126
AUTHORS: Popova, Z.V., Yanovskiy, D.M., Kirpichnikov, P.A., Kapustina, A.S.
TITLE: A method of stabilizing halide-containing high-molecular compounds
PERIODICAL; Byulleten' izobreteniy, no. 17, 1962, 34
TEXT: Class 39b, 2206- No. 149877 (7469.40/23-4 of September 30, 1961).
This method of stabilizing halide-containing high-molecular compounds uses epoxy
compounds as stabilizer. The method is distinguished by the fact that, to im-
prove the qualJty of the final product, epoxided esters of a phosphonic acid
(e.g., 1.2-epoxy-2-propylophosphinic acid) or other mixtures of these esters
with other types of stabilizers are used as stabilIzer.
[Abstracter's note: Complete translation]
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KMIEVA, NA,,l mriazaKov P.A.. FOOVIK9 A.K.
Polyphosphites, Part 3: Interaction of pyrocatesholphoophorous
chloroanlWdride with dioxy compounds. Zhw.ob.khim. 32 no.7s2193.-
2196 Jl 162. (KERk 15t7)
lo Kazanskiy kbimil-o-tekbnologichookiy institut Imeni S.M.Kirova.
(Phosphorous acid) (Pyrocateohol) (Diphosphites)
TOKAREVA, L.G.; MIKHAYLOVp N.V.1 ROZOVAj X.N.1 KWICHNIKOVO ?.A.
Lightfastnese of polypropylene and fiber based on it, Dim,
volok. no.,343-25 162. (KM 16s2)
1. VmeaoTuznyy nouchno-issladovatellskil institut iskusstvew-
nogo volokna. -
(Propene) (Textile fibers, Synthatio) (Photochmistry)
39649
Biol/B180
i'XTHOAS: 'Mikhaylov, 11, V., Tokareva, L. G., 3uravchenko, K. K.,
Terckhova, Gx. U., Kirpichnikov, P. A.
'211'LE: Stabilization of polyethylene terephthalate melts
Vy!iokomolekulyarnyye oo~redineniya', v. 4, no. 5, 1962r
iia6--iI92
,"AT:
I - In 'his fifth report on the ageing of synthetic fibers, the
--ut."lors ntudied the'therinooxidative decomposition of polyethylene
tereplithalate (PET) (initial intrinsic viscosity 'r-U" -- 0.245; after
L
reprecipitation 0.256) at 170 - 2200C (methods see Kolloidn ' zh.,.
16, 576, 1956) and their inhibition by esters of*phosphorous acid:
0
Results:_ 'Q Heating to 220 C in 11 ahows no change in When heated
in air, decreased more slowly in PET with reprecipitation reiining
than witE-out. It is therefore assumed that thermooxidative processes
occur.-mith the formation of COH and.COOH groups abd destruction of the,
ester bond. The PET fiber Lavaan behaved similarly: initial breakint
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T