SCIENTIFIC ABSTRACT FILIPP, N.D. - FILIPPENKO, L.G.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000413110013-7
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 13, 2000
Sequence Number:
13
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 3.76 MB |
Body:
31984
S/142/61/004/004/005/018
Possibility of employing o4oa E192/E382
_Np itp IM(P, t)
B (p, 0 YA.(P, t) E '(P, Oe
M
m M
where the sum extends over all the partial fields t (P, 0
M
whIch can be regarded as having arrived at the receiver along
various trajectories; the field b(P, t) Is therefor-e a
result of multi-ray propagation. A two-antenna interferometer,
shown in Fig. 1, is used as the receiver; it consists of:
I - two antennae; 2 - feeder system and 3 - a square-detector.
The voltage at the point C of the receiving system can be
expx-essed by:
_01 4 i(P (plot)
E (r, t) G mw(pi,oe +
0 lm m
m
+ ZG2.(t) E.' O(P2 t)e t)
Card 2/6 M
0
R
7
S/142/6i/60-4/004/005/018
E192/E382
Possibility of employing
vrh ere Glin and G2,,-, are the gain coefficients of the two
ant enna e,
Y (P, t) YI(p, t) +Y where tpl represents the mean
m M mp M
value of the phase in the antenna aperture,
~O is the fixed phase-shift during transmission of
MP the.signal from point 11 to point C of
.the feeder system.
The mathematical expectation U (;) of the amplitude U(r, t)
0
of the output signal of the square-detector (see Fig. 1) is found
analyticallyand this expression is employed to determ:Lne the
conditions during propagation of ultrashort vraves over near-
ground routes extending over tens of kilometres. Under the
assumption that the fluctuations are small two cases(important
in practicd are investigated: 1) the field at the receiver
has only one component (m, n = 1) and 2) the field consists of
two components E 0 + Es , such that E 0 has a constant phase and
amplitude, while E. is a random components It is found that. for
Card 3fj
319P%
S/142/ft/oo4/oo4/005/018
Possibility of employing B192/E382
the first case the expectation U depends on the Invariable
0
field characteristics as well as the statistical characteristics
of the medium. It is further shown that use of the phase-meter
system accentuates the relative fluctuations of the output signal
so that these can be measured and investigated comparatively
easily. Sec'ondly, the method makes possible measuring the space
correlation characteristics of the field fluctuations. In the
case of the field consisting of the two components E 0 and E s
use of the method permits Ielimination of the constant field
component, which facilitates measurement of tho field fluctuations.
The problem was investigated experimentally and it was found that
in the direct-visibility zone the amplitude-phase fluctuations
of the ultrashort waves were so small that there existed practical
difficulties in effecting the measurements. Thus, for example,
during 65 measurement periods conducted between Janu2ry and
March, 1957, in 33 cases the relative fluctuation % 0.01,
in 20 cases 0.01 e,,' < 0.25 and only in 12 cases a? 0.25
2 0
Card 4fo
Possibility of employing ....
31984
S/142,161/004/0011/005/018
E192/E382
A series of measurements of amplitude-phase fluctuations was'.
carried out in the autumn-of-1959 at ultrashort waves by the
phase-meter method and it was found that the low-frequency
component of the amp;itude-phase fluctuations was primarily
determined by the pha6e-fluctuations of the field; on the 'other
hand, the fast component was due to the, amplitude-fluctuations.
This was further confirmed by some measurements of auto-
correlation functions of the amplitud'e- and amplitude-phase
fluctqations of the field at a frequency of f = 9 350 Mc/s- 10,
A preliminary estimate ofthe mean square phas e-f luc tuat ions
2
shows it tq be of the order of 10- radians, which compares with
data available from the literature (Ref. 6 - A.V. Men's S.Yae
Braude and V.I. Gorbach - DAN SSSR, 1959, 125, no. 5, 1019;
Ref -, 7 - D.M. Vysolzovskiy - Some, problems of long-distance
tropospheric propagation of ultras.hort radio waves, pub.
by AS USSR,, 1958).
Card 5/6
31984
s/l4,,a/6l/O04/0O4/0O5/Ol8
Possibility of employing E192/E382
There are 4 figures and 7 Soviet-b-loc references.
ASSOCIATION:.... Kafedra rasprostraneniya radiovoln Nloskovskogo
ordena Lenina goso universiteta im.
M.V. Lononosova (Department of Radio-i-rave
Propagation of Moscow Order of Lenin State
University.im. M.V. Loinonosov)
SUBMITTED: June 20, 1960
Fig. 1:
P, P2
V
Card 6/6
M19
,/61/006/009/002/018
8/109
D201/D302
AUTHORt Pilippv N.Dt
TITLE: The fluctuation character of a UHP radiosignal
propagated over an inhomogeneous surface
PERIODICAL: Radiotekhnika i elektronikiat v, 6t noo q# 1961t
1432 - 1441
TEM In the preBent article the author gives the results of ex-
.perimental study of fluctuation characteri sties of radiowaves at
10 am frequency band over a 37 km direct propagation path# using
diversityreception. A very complex field distribution was found
across the propagation path (even within a few wavelengths). The
theoretical analysis is carried out considering the schematic re-
presentation of a two path propagation as shown in Pig. 1. If the
transmitter is at p.A and the receiver at point P# then the field
,'S"(P, t) at th~ receiving point is determined by the field of the.
direct (Fl t) and of the reflected ray iX2(P, t), where
Card 1/9
S/109/61/006/009/002/018
The fluctuation character of D201/D302
0,
I, (PI 1) I-P (PI 1) + AE, (P. 0) OxP It [Iva, (P, J) + A), (P.
WI(P, t) R(C)jEo2(P.f) + AE2(P,')Iexp (i((PQ2(P,t) + ACPI(PM-Coll).
Tp simplify.furthert notation arguemtne P, t are omitted, 2019 "02
'POlt T02 are the.averagp values of amplitude and p),a.se of the di-
and reflected rays respeotivelys 4 E the
lt A~NEV Av- 1 472
.fluctuation components of the respective quantities, cf02 contain-
ing-also the lose angle at.reflection; R(C) -,the modulus of the
reflection. coefficient. The modulus of the reflection coefficient.
depends not only on the electrical properties of the Earth's surfa-
cep but also on the geometry of the reflecting surface. Restrict-
ing the analysis to semi-spherical irregularities of the reflect-
...ing surface the reflection coefficient modulus R(C) is given by
R(C 0 -\/:D:jDIO (2)
R rff'
2
Card 2/9
VWII~
0
The fluctuation character of ...
28~19
S/109/61/006/009/002/018
D201/D302
where RO - the reflection coefficient of an ideally conducting sur-
face and
,4.2
D(r 2) = coo 0 + 2r 21( 1 + I)cos2~ +sin Q]+ 12 cos 0;
PI P2 Po Pl P2
where D(r2)S - the area of the normal cross-section of the ray rea-
ching the elementary surface area at the point of incidence; e -
the angle of-incidence; p, and P2 - main radii of the curvature of
normal cross-section of the surface; K = l/Pl P2 Gaussian curvatu-
re of the surface; po - radius of the normal cross-section of the
ray incidence area. Assuming small fluctuations of the field which
is true for direct and short propagation paths
V(PI TT - URP t) adjerEol(I + R2(0) + 2R(O)ooa AcpO)j
2 2(0)
a f Azi(i + R + 2R(C)paM cosLTO) - 2R(C) 6,zpj(l - PL,~T
Card 3/9
The fluctuation character of ...
28519
8/109/61/'006/009/002/018
D201/D302
X (E2 + )COG 6cfo (5)
01
is derived, giviR& the mean.value of power fluctuation, in which
2
E! and 4=6q?_l are the coefficients
PAE = CP 72 /
of space correlation.of amplitude and phase fluctuations of direct
and reflected waves at the aperture of the receiving antenna. The
signal fluctuation at the output of the system is determined not
only by the fluouations of amplitude and phase, but also by the de-
gree of correlation of fluctuations 4Ei and of phases Aq, ( i =
= 1,2); expression (5) in the vicinity of maxima and minima of the
me an level of the field reduces then to that of
4 = a 2(l + R2(C 2R (C)p 2 Cr 2(1 - qAq~')) ,(6)
V(Pt _t)_ fdi AE)� 2R(0) E61 i
ant for relative fluctuations of the signal level
Card 4/9
28519
B/109/61/006/009/002/018
The fluctuation character of ... D201/D302
(2,tAr)] + A.) (52 2n Ar
'R~p 11AR&OI
[I + JP (0) - 2ft (C) p,&,v Cos 2 1 (1 P of + Z
OIL+ R )COs 2a
is given in which 0~ 6(r,)2. The space correlation
1 cf 2
coefficient is then studied. It is assumed that thereare two rays
at the receiving ends the direct and reflected. If at points P
and P there are two receiving antennae, then under several a8BUMP-
2
tions the space c orrel ation coefficient takes the form of
Z (I R1 � n2+ RIBI)
P(PI, P2)
A.611 (I � 1?1)2 (1 +R') AE' (t (j + 1?1)r"
1 2
when both antennae are in the vicinity of interference maxima or
minima or of
Card 5/9
28519
S/109/61/006/009/002/018
The fluctuation character of D201/D302
WEiAEj(i + R, - R, - Rj1?t',+'TVA 9, (R2, J?',& + 1?1 In, - MIR, - R,111) .(12)
P (Pit PS) "_ - - . 1.:
I Ar", V1?02 0 + R~) Z71"" (t - J?,). v + R,))
when one, antenna is in the vicinity of a maximum and the other in
,the vicinity of a minimumo It follows from (11) and (12) that the
space correlation of amplitude fluctuations in propagation over
an imperfect and rough surface has lobes. The time correlation co-
.efficient p(Pp T) is given as-
VT71TU _(P. I T-T
P(P' V (P.,)*u (P. I T 1)
Of TI-7) - (U_F1'7-))'j turul. _'+ T) - (UTI-l"'T -.r))
(18)
P
Ahl t 0142 + (11, R) A IAV~CW
The receiving antenna is at point Py U(Pt t) and U(P, t + -r) are
~signals at the output of quadratic detector at+Point P in the pre-
sence of.the reflecting surface and pf eespace(T) the coefficient
Card 6/9 r
26519
8/109-6!/006/009/002/018
The fluctuation chq .racter of ... :D2017D302
of autocorrelation in free space. This distribution does not exhi-
bit any lobes. It may be seen from the above that fluctuations at
the output of the receiving system, in the presence of a rough, re-
fleeting earth surfacet differ from each other at various points
along the propagation path. The a*thors give next some of the re-
sults obtained in an experiment which was carried out beTween June
1959 and June 1960 over an open land propagation path 37 km long.
From the character of the propftation path it could be expected 3,
Uhat ihe reflection coefficiert"t would be neglijible everywhere ex'-
cept in the vicinity of theroceiving end. Al. one end was sit ated
a pulse transmitterp peak powor 80 kW, carrier frequency f = 1000
Me/a, repetition frequency 400 p~p-s- and pulse length I microsec.
The maximum deviation of the I)a-,.h profile from a spherical, shape
was about 50 m. The receiver used diversity receptJon with automa-
tic signal strength registrat".-on. The experiment consisted of mea-
suring the transverse corrdla',;Jon of the field intensity fluctua-
tions in horizontal planeg under strict control of stability of
both the transmitter and receiver parameters. Measurements were
carried out 3 times a day during 30 - 80 mins. The antennae base
Card 7/9
B/iog/6:/006/009/002/018
The fluctuation character of D201/MOP
was varied.betwee n 1-40 wavelengthop the envelope of amplitude of
pulse signals received was photographed for 5-7 minutes. The ispeed
of film was variedt To sLUt the character of fluctuations, from I-
10 =/sec. Graphs are shown of the averaged level of ihe field E,
of the coefficient, of shape - transverse correlation p(s) and of
dispersion (a) of the received signal during one of the periods
ol~
observations. Also,, The experimentally determ;.ned values are ahown
of the time autocorreiation coefficient for different points of
the space, in which the average level of the field, relatIve Huc-
tuations and their disper6ion differed noticeab"Ly. The author ack-
nowledges the help of A.A. Somenov and of G.A. Karpeyev. There are
6 f-%gures and 12 references: 11 Soviet c and I non-Soviet-bloc.
The reference to the Engi-ish-language pu ication reads as follows:
R.B. Muchmorep A.D. Whee~_bn, Proc. I.R.E., 19559 43P 10, 1437a
ASSOCIATION: FizicheBkiy fakul't'et Moskovskogo gosudarBtvennogo uni-
versiteta im. M.V. Lomonosova,:kafedra rasprostraneni-
ya radIovoin (Moscow State University im. M.V. lomono-
Card 8/9 AV
2,853.9
S/109/61/006/009/002/018,-
The fluctuation charaoter of D201/D302
sov,.Paculty of Physics, Department of Propagation of
Radiowaves)
SUBMITTED: September 30,t 1969
Pigo 1.
Card 9/9
Lox<
a
SYMSOVAS G.P.Ln!I--MY,!!.'-
Duadno- and aovl=iAc cempaindo of trivalont cdglt Vith
Ucb..zap.Xish.mn. 68t24-213 f
+--wbrjnziUlox'--* 63 famr
*641. (MIRA 18t]2)
FILIPPMO, A.
Workers of the Rostov harbor making efforts to carry out the
seven-year plan. Rech.transp. 19 no.5:9-10 My .160.
(MIRA 13:7)
1, Nachallnik Rostcivskogo porta.
(Rostcm-on-Dou-Harbors)
(Cargto handling)
FILIPFEIZOt A-
Fr4outiers of the BOV'SMi-year plan are calling. Rech.
tran~p. 21 no.12:20-21 D 162-. (MM 15:12)
Nachallnik Rostovskogo portas
(Ua=d water transportation)
RETSEPTOR. Ta. (g.Moskva); MAMROV, 0.; NOAK, A.; BERNBRYANIKOV, G.,
ekonomist; KHAIT, M.; FILIFFERK - A.- 3MMKOOV, A, (Dagestan-
almya ASSIR); GRIGORITBV-.-K.; 'DZMMIMIT, ff. (g.Kishinev);
KALYUMU, L. (g.Klin);, POLISHCIFJr, 1. (g.Pervourallsk.
Sverdlovskoy obl.); GRIZODUB. Yu. (G,'Frunze); CHIWUN, L.
Letters to the editors. Sots. trud 6 no. 1:136-141 -Ta 161.
(M MA 14: 1)
1. Glavuyy insh.sbakhty No. 31 tresta Kirovugoll . g.Xaraganda
(for Shakirov). Z..Machallnik planavogo otdela shakhty No. 31
tresta Kirovugoll, g. TAraganda (for Noak). 3. Glavnyy bukhgalter
stroitellnogo upravReniya "Tyazbmashetrov", g.Kramatorek, Sta-
linskoy obl. (for Maait). 4, Rachallnik otdela truda i
zarabotuoy platy vollskogo zavoda "Metallist* (for lilippeuko).
5. Rachallnik otdeM truda i zarabotnoy platy loningradskogo
zavoda "Kinap" (for Grigorlyev). 6. Favinskiy llnozavod
Koetromakoy oblasti (for Ghigorev).
(wage payment systems) (Industrial maragement)
AKSHNOV, Aleksey Gavrilovich; LURIYE, K.Ye., inzh., red.; RUSIN, V.N.,
retsenzent; JUM)MO, A.A.. retnenzent; VITAWKINA, S.11.,
red.izd.va; '3GM6VVfOWAWWkhn. red.
(Marine refrigerator plants] Badovye kholodilinyo ustanovki.
Pod red. M.E.Lurle. Moskva, Izd-vo 'Rechnoi transport," 1959.
183 P. (HL%i 12:12)
(Refrigeration on ships)
8(6)9 11(7)
SOV/91-59-7-5/21
AUTHOR: Fedorov, A,N,, Fingineerp Filippenko, A.A.
TITLE: Improving the Work of Boilers Using 9ulfurous Yazut
PERIODICAL: Rnergetik, 1959, Nr 7 pp 11-12 (USICIPI)
ABSTRAM. The authors describe two single-drum boilers TsYTI
50-39-FM producing 50 tons of steam per hour, which
were installed at an unidentified thermal power plant
in 1952. Mazut of types 20 and 40 containing up to
59 sulfur was used as fuel. They further describe, the
deficiencies observed during the operation of t'he boi-
lers. The air heater had to be cleaned after 600-
720 hours of operation due to excessive soot presipi-
tation. The refractory bricks in the stoker were in-
sufficiently cooled, requiring relining of the stoker
after 1-2 years. The authors of this article sugges-
ted air ducts on the floor of the stoker as shown in
two diagrams. The 0air passing thru these ducts is hea-
Card 1/2 ted to 500 - 600 C and enters the blower intake
SOV/91-59-7-5/21
Improving the Work of Boilers Using Sulfurous ~Iazut
where it is mixed with cold air. A slide valve is
used for controlling the air flow, This modification
enabled -the operation of tle boilers for 2,()00 to
2,300 hours without removing accumulated soot.
There are 2 diagrams
Card 2/2
I Z ; V
f4l AN rpp YWTA~
FILIPPENKQ_,,A,jeXvandr Alakeandrovich; CHICHKOV, N.V., red.;
MKOWEVA) N.G., red.; MEDRIS11, D.M.p tekhn.red.
[Safety measures and fire prevention engineering] Tekhnika
bezopasnosti i protivopozharnaia tekhnika. 14oskva, Gost~org-
izdat,, 1963. 166 p. (MLU 16:12)
(Refrigeration and refrigerating machinery-Safety measures)
(Fire prevention)
ROZRITALS) D#A.;lPl4_P~.?RikOj_A,T-
Effect of physit3ouhemical parameters and catalyzers on 'the oxida-
tion rate of bitumen of the Wits. oilfield. Zhur. prikl. kbim.
37 no.llt2550 14 164 (MIRA 18t1)
4(5) sciv/16-59-6-8/46
AUTHORS: Korovin, F.T., Nuzhdin, I.D. and Filippenko, A.I.
TITLE: Disinfection as a Means of Antibact;riological Defense
PERIODICAL: Zhurnal mikrobiologii, epldemiologii I immunobiologii, 1959, Nr 6,
pp 40-44 (USSF)
ABSTRACT: The authors detal with the principles and methods of decontamination and
disinfeotion In bacteriological warfare, The infomation is based on
foreign manuals and pamphlets on the subject, mostly LIS.
There are 3 American references.
SUBMTITED: December 16, 3,958
Card 1/1
AIRKSONDROV, N.I.; GEFEM, N.Te.; BUDAK, A.F.; YEZEFOM.- Yu.V.'- FILIPPENKO,
A.I.; RUNOVA, V.F.
Search for effsotivd chemical vaccines against some zoonosea.
Re~ort.Ko.lt Production of chemical by deposited anthrax vaccine
and study of its effeot~veness in ari-I experiments. Zhur. mikrobiol.'
epid. i imwi. 32 no*5i'4246 My 161; (KERL 14:6)
(ANTHRAX)
ALEMANDROV, N,,I.; GIFFq, N~Ye.; HUMPIA, O.A., LFBMINSKrf, V.A.; OGARKOV,
MAKMWV, N,I?.; TILIPPENKO) A.I.
Research on effective chemical vaccines against some zoonoses.
Report No.,!: Development of-a chemical brucellosis vaccine and
study of its effectiveness'in experiments on animals. Zhur.
mikrobiol., epid. i immun. 32 no 11:66-72 11 16L (MIRA 14:11)
(BRUCELIMM) (VAMns) (zoouo=-:Pwariow
ALEKSANMLOV, R.I.; GEFFN, N.Ye.; RONOVA, V.F.; BUDAK, A.P.; YMWCMK, Yu.V.
LBEEDINSKIYp V.A.; TILIPPMO.. Me
Improvement of the culture medium and search for a method of
purifying the protective anthrax antigen. Zhur. mikrobiol.
epid. i immune 40 nooltIO3-1071639 (KMA 16:10)
ALEKSANDROV, N.I., GEFEN, N.Ye.; DOBROVOLISKIY, K.F.; YEZEPCIRIK, Yu.V.;
IEBEDINSKIY, VA.; MIKHAYLOV, B.Ya.; RUNOVA, V.F.; SEREGINA, A.I.;
FILIPPENKO A.I.
- ......... -
Immunogenicity of chemical anthrax vaccine in experiments on sheep.
Zhur. mikrobic,l.,, epid. i immun. 42 no-1:57-60 Ja 165.
(14M 18: 6)
L 13096-66 Evrr(1)/kwA(j)/r/EwA(b)-2 JK
ACC NRt Woo(Wfl WIWT COVEi
AUTHOR: Aleksandrov, N. I.; Geren. N. Ye.; llobrovolfsklyp Ke Fe; YPz,PPchuk Yu. V.;
n
lwilovi. V
11-vtows, Y# Fs; .;erPgJnaj:A.
ORG: none
TITLE: Immunogenicity of chemical anthrax vaccine tested in shrep
SOURCE: Zhurnal mikrobiologii, epideminlop o 1 1 5, 5 -6
,ii t immitnoblolopil, n 96 7 0
TOPIC TAGS: vaccine, immunoloe5, atiLlirax
ABSTRACT: The authors improved the chi-mical anthrax-vLtccJmc that they lind developed
several years before. Single as well ni double 1noculations of sheep producel
imunity to infection from 11'.)0 Del of virulent anthrax baclllae~ Furtlwr research
is needed to determine the minimal Immiat-17-Ing dose for sheep and the durntion- of
the immunitys Orige arto.hav 3 tables. EJPR31
SUB CODE: 06 'SUBM DATE: 29Jun63 oRiG Rr.-F, oo3 / ant REFt W
UD09 616.981.
!!!98- 53-7_2 -_O
S/191/61/000/001/003/015
D101/B205
AUTHORSt Akutint M. S., Smirnova, L. N., Filippenkal D.
TITLEs Interracial polycondensation
PERIODICALs Plasticheskiye massy, no.il, 1961, 10 - 11
TEM A study has been made Pf the acceleration of condensation of epoxy
regin with dephenylol propane (DFF) by interfacial polycondensation,
Lj;-j.:jg diphenylol propane (melting point, 153-1560 C) and commercial 97~
~-A)Lchlorohydrin (EPC). The DPPtEPC ratio was 10.25, 131-59 ls2-39 or 198-
The end of the reaction was ascertained from the DPP content of the aqueous
alkaline solution. The percentage of epoxy groups, 8% at lsle.25p rose to
20cli at 10. Fig. 2 shows that the optimum concentrations of the sodium
salts of DPP and EPC are obtained in the aqueous and organic phase, re-
spectively. At this concentration, a resin with maximum content of epoxy
groups is obtained. Beside3g the content of epoxy groups depended on the
organic solvent used for the purpose. Solvents in which the forming resin
was unsoluble, yielded resins with a lower content of epoxy groups. At an
Card 1/3
S/19 61/000/001/003/015
Interfacial polycondensation BlOIYB205
initial ratio between the components of 10, for examplep it was 15.9% for
cyclohexanone and 20.6% for n-butanol. The highest content of epoxy
groups was obtained from n-butanol at any ratio. Polyeondensation could
be shortened by thorough mixing and an increase of temperature from 35 to
0
90 C. Mixingj temperature increase$ and condensation time had no effect
on the content of epoxy groups. The reaction time of interfacial polycon-
densation was 15-50 min as compared to a time of 120-360 min required to
perform polycondensation by fusion of the components.
-There are 3 figures, 2 tablesp and 4 teferencest I Soviet and 3 US.
Card 2/3
Interfacial.polycondeneation
Legend to Fig. 2:
a~ EPC concentration,
b content of epoxy groups, A;
DPP concentration in water for 1 3
equal to 30 ~* and for-4-equal to the
EPC concentration; DPPtEPC ratio for
curve 1:8; for curve 2 - It2-3;
for curve 3 - 1:1-5; for curve
4 10.25.
S11911611000100110031015
B.101/B205
'OR
14.
10.
9-
'Wea 'W
IY-Ummpa4uo &7UX1qW&*VM'
aj OP'rCm&PUn".
Card 3/3
IMMM
224
NEWT' P-C -------
l!"'WIC dirt
AP6006361 (A) SOURCE CODE: U,%/0413/66/000/(102/0095/0095
AUTHOR: Gorbunov, V. H.j~ Pilippenko, D.-H.
0 RG none
TITLE; Preparatio 17 1
n of ~jI22~y- compouitions,, Class 39, No,~ 8 05
[announced by Scientific.Research institute of P1astics_'0ra_uVMd--
iosledovatel'skiy in stititt. plasticheskiR'ft_-ai_ii_
SOURCE: Izobreteniyat picomyshlennyye obraztey, tovarnyye,znaki# no. 2.11
11966, 95
TOPIC TAGS i epoxY P188#16,Cyclohexane, polymerizatio.n
ABSTRACT: This Author Ortiffcate describes a method for preparing
epoxy compounds by mixinjj~ 'vinylcyclohexene monoxide and an unsatu.rated.
polymerizing compound in the presenceof free-radical polymerization
It initiators. To lower th'e viscosity of the composition anti raise the
heat resistance of.'the cured product, dicarboxylic acid anhydrides,
6uch as maleic and anhydride, ar -e proposed for use as unsaturated com-
pounds. Ionic-type cata'iyats will accelerate the hardening process*
SUB CODE: II/ SUBH DATE: 050ct63 LLD)
Card 1 UM 678.746.4-134.434
A,
tur'~~ QR;R, V 10-81
T
A,
ACC NR' AP6015662 SOURCE CODE: UR/0413/66/000,1009/0074/0074
p_ov
INVENTOR: Gorbunov, V. N.; Rydvanova, S. S.; Filippenko, D. M.; E2!a
ORG: none of
TITLE: Method of preparing low-viscosity el2oxy compounds. Class 39, No. 181282
[announced by State Scientific Research Institute for Plastics (Gosudarstvennyy
6auc~no-Issledo'vatelt.skiy irfathuit-plasticheskikh mass)]
SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 9, 1966, 74
TOPIC TAGS: epoxy compound, low viscosity epoxy compound
ABSTRACT: This Author Certificate introduces a method of preparing low-viscosity
epoxy compounds which can be harddned with anhydrides of carboxylic acids by mixtr
the epoxy resin with vinylcyclohexene monoxide as an active diluent. To expand the
raw-material range of low-viscosity epoxy compounds, epoxidized, unsaturated
oligomers, such as epoxidized divinylstyrene oligomer are suggestes as the epoxy
Card 1'/ 2
678.7
43,66, 063, 93 2
A.Ir~77-e,A
-,?~ - i mm I I"". IiR-
'T-RIORN -1,1-.
F,mnmc~ 00 1.
20851. Filippanko,, 0. 1. 1 Zonarv' I. I0 KolkhozhM agrotekhnicheakiyelaboiatorii
0
--ochagi agrokulltury. Sots. sal. Khoz-vo Uzbekistana, 1949, NO. 1j, a. 35-41.
SOt LETOPIS ZHURNAL STATEY Vdl. 28,, Moakvap 1040-
FILIPPENKO. G4-1 "
"Effect of Su6kering on Ripening and Increas6 in Yield of the Gotton Plant,"
Khlopkovodstvo., No.6, 1952
The CwmIttee an Otalln Prizes (of the Cm=U of Ministers USSR) in Uc fields of
sciewe and InvimtIone amounc4s that the foLloving scientific vorkaj, popular scien-
tific books, w4 tvdbooke have, been submitted for cavatition for Stalin Prize& for
j 1%,scovp Do* 2240p 20 ftb
the years 1952 and 1953. (QMIskm Wturs - 3 Apro 1954)
NNW Title of Work NO""t4A by
Fili-o~enko-, G. T. "Cotton Grewing" Ministry of Agriculture Uzbek
Textbook OSR
so; w-3o6o4, 7 july lq~k
JFILIPPMO, GrigorL7 Ionifovich
go"
[The *Oktiabrl collective cotton farm] Xhlopkovodcheskii kolkhoz
*Oktiabrlg [Tashkint] Kintateretvo sel'skogo khostaistva UsSM,
19550 0:12)
(Vzbekistau~4otton growing)
-UF *j, . c ni.;Ir~~,~-*ii -I'm
A 1 4 1
A , 4 1 1 1 IS It to It 14 N v
"-"'A it-F-VAIL-1 jln It 11
It
00 A -
J
-
Ka
00 0 will Akp 0,10*14141, ~4'4
A
00
go
j
v
U i
J
A
.
.,
103
l
1
m
W-C
ca
P44
Go- (h"gooss" "SO-j"Uh.
- -
rAd WOMMOM th~
low
yi
41=a "Thy NJ ehittiophyll Ounteat of tm
L
as A.G. P.
05
1~0
4-4 A-m- a
Zoo
-00
'9-3
L mllt:,~LV~GKII, UtIMATUNi CLAt$WKAVtC#
T--
n AA I, I v Md a m a I v I's 0 3 a
1 IN
to to 14
0 0 0 0 0 0 0 410 0 0 0 0 0 0 6 010 Is e * o 0 0 0 o 0 a 0 o 0 o 0 0 a
Wes
6*0
Coo
woo
Wei
No 0
WO 0
6 e 0 6 g
A--c a L P I I I I. P a N I iL~ -1 A4 N OL UP It
If A!wV - - . il -'..0 1
i%%#$ *.a ..of I
rhotoeyntheals to applied to citrous plants in natural
militifts. Fit R'. It. cwtler and (). K.
'#,na Com . .0 R. S. S. 17. *.!:I-S
W. CUM.
I ~I~ Pticlish).-Rate n( PhotmYnd-i- w- meas-
liffol ill tit""Itil CO. votiftnt 44 air RI'%'Iritl1jq ftnipc mul
In vafiml light inictimli" in twill -tt"IT12 Mitt Winter.
Joe lit 11111111'ri Intinth-L on avrtwIlvill 111tr 11'Alogily .4 0
Lil..m ontl whrf plailli it,, not mitme l4v dkt~l %-La
00 01111111"Al6m; the tiplical olslininto lAv"ItRK vtw,,. "- 1 .04
i0ty ormthl apim-mi, Io lie, for nrailv all plants, withill
&0 :Itr range of Milt) to ULM) lujk. oldle lit sininner the il.
himinatio" Indy 1W *It high as M.4114) lit%. Them I've.
ployr that It id 11tiltr Immildc to jmw vitt'"14 I'ljnt4 sit the
Iow to( 10111 lver Im-laiv lostmul if 5110~ Vitmo. pLitilm
tliow a high odaptAtAilly to win1vt volitlitimm Thry
13 -1411 their oplilimm C4 1110mloollon lowmill n lower ill. Q* 0
0 tfn~ltjr. adjust their (AWomynthttle ismiviiv 14P boirt
0 tilt.. AM. fit ft"r C*-Ws' $tilt* of Scratfir Vnerfiv 14
thelt""tith"14 Ilion in wittlatirr.- 01-ts; 1.6f f-I Infl-
00 4110104 IW ICIMM11 lVd-fiCARY I0 ISITMIt IiKI&I X*e
v;nt vation of the tit". 1. L willaTuAll
he
tie*
it
a t I A of I a I I k. P ~N a II I I f a a t L A I It SiUr K 4 1 tck
-it 0 0 9 v AM4
IV 0 M ANI 9: it IV a a It it x n 1 14
0 0 4 0 0 0 0 9 0 0 9 0 v
0 0 0 * 0 0 0,0 so a 0 a 6 0 0 Ill 0 0 ~10110 0 ~o 0 0 4 9 * * * 0 0 0
--,, 7smov,
0 W It 1& 1) 4 it a a b 11 b M v it X jo P W 0 0 z ft v x M, 41 al 41 -a
A A C IL L--L p A a $-A V-1 A- t., 1, AA 08 CC 0 It I
A T ,it
of
06
Fortmallm fA bl" to tho yambed e;m~r?ct ot winter
wheat. J.-A-Y COMPC tend. dfild. its.
"ft(In Unxlikh). el. C. A. 31,
1",2181O.-Fintv" nt yanyvized s",14 contained 3-8 times
06 x% Tnurb itios is the unyarovized secd4. In are c2ve the
1404 facm-ed with length of yarovilution up to M clays,
0
ist stwiher. cam It was pralest in the It'-day smvpIc-
00 Willumn
00 too
zoo
so --*o
ZOO
re 0
go
00
00 2too
'00
1 6 MIALLURGKAL LITINArl.6t CLA$SJPK&t-Cm
I'N Z
9 rt too
No
U 11 AV 103 It!;
10 At at ,a:
r0 ; 0' ; 0 0 0 00 a 00
0 9 41 0 a 0 0 a O'.AA
FILIPPENKO, Z- I- A-
er " Dok.
"Yarovization of Sed of Agricultural Plants by Inunersion In Wat )
An. Vol. 23, No. 6, 15139-
Timiriazev Inst. of Plant Physio.
4b 6
40 6.4 1 I-Ir t
cc, L-. % 1 '4 11 11 11
POOM"S AOO
=1 91
see
.00
4W&'A#sA4r& Raj,,.
Gee
GOO coo
UC
06" too
Aloo
*04
ty in W. MCC,
Poo
400
goo
boo
glow S1.811t.
1414s') oil Qmv Oat P, 40 4.v L%i-
u a A, tw 0 0 4 1 v to I A 2 3 0 9
0
0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 * 0 9 0 0 0 0 0 0 * 0
~64&-IAL* 0 0 000OW0000000 0 0 AIL &A* 0 0 0 S 0 0 9 0 0 0 0 * * ?04
tl tb, f
C 0,U r THY USSR
OAT~,*ORY
JOUR. RZBiol. No. 195/, No. q(,97.7
AUTHOR Fllippellko 1. A
-Sciences U6
1 'Zxv .5 T . c -a t I E, M Yof
-T w L;~ Alteration-of the Nature of Winter Wheat
Depending on Conditions of n a 1 i z: i t i o., i .
OiIG. FUS. Sb.--"Parityati akad. N.A. Maksimovall, Xoscovj~
AN 83SR, 1957, 193-1ct
-~i A C T Experimients of the Institute of Plant Physi-
of tl~.e Acadcny of Sciences U86R. ~3eeds of winter
*.&C-at with the principal,growing point cut off before or
al'tcr vernalization, when planted. in the spring paroduce
under 31avarable conditions, copious tillering -- up to
8-12 rcdixtivr::~ stems that are biologically.disparate.
Early ~ reno-val o-f principal growirig poLrlt prior to vernal-
Zzation acceler tes spike formation, In compar'scr, with
.~L la - -k
the other variant. In the second 'generation of plarits,
,f(--rrt.a11zc-d in 1$48 without growing pollntt arid sowc-d In. the
spring of 1940 without vernalization. there were isolated
forms that -were typically winter-wheat, and other forms
C A,7t D1/2
I;/ "I r?- ". IV 4-b-, IIo -
YILIPPBNKOO -,
Iffsot i')f 2.4-D on the quality of wheat seed (with summry in
Inglish]. Flziol. rast. 4 no.5t470-475 S-0 157. -Jmiu loril)
1. Inatitut fixiologii rasteniy in, XA. Timiryateva AN SSSR, Moskva.
(Wheat) (2,4-D) (Seeds)
FILIPPENED, I.A.
of some pbysiological changes In wheat induces by 2 4-D.
Finiol.rast. 5 no.5-.453-455 S-0 158. (MIRA US115
1. Institut fisiologii rastenly iment. K.A. Timirayamova Al SSSR, MoskT%.
(Wheat) (Plants, Bffect of 2,4-D on)
FILIP.PENKOt I. A.
Cand Biol :Sci - (diss) "Effect of 2,4-D on the ontogenesis and
sead quality of wheat."- Moscow, 1961. 19 pp; (Moscow Oblast'
Pedagogical. Inst imeni N. X. Krupskaya); 200 copies; price not
given; (KLI 5-61 sup,185)
FILIPPENKO, I.A.; PAVIOIA, L.I.
Effect of large amounts of 2,4-D on the yield of stwrzner wheat.
Fiziol. rast. 11 no.4:603-606 Jl-Ag 164.
(MMk 17:11)
1. Institut fiziologii rasteniy imeni Timiryazeva AN SSSR, Moskva.
SOKOLOV F.A., kand. sellkhoz. nauk; KOONET, V.I., krund. sell-
khoz. nauk; SHAFRI11, A.11.,zasl.agr.Uzb.SSR; KONDRAWUK,V.P.
kand. sellkhoz. nauk; MALINKIN, R.P., doktor sellkhoz.
nauk; YER12MIKO, V.Ye., doktor sallkhoz. nauk [deceased];
NEDVIS, M.P., kand.biol. nauk,- Fj_ PPEN'KO, G.I., kand.
selikhoz. nauk; USPI,21SKIY, F.M., Vt11-.Tf-oL'nauk;
SOLOVIYEVAI A.I., kand. sellkhoz. nauk; FRUGALOV, A.M.,
kand.sellkhoz. nauk (deceased); ZAKIROVI T.S., kand '
sallkhoz. nauk; ERMIKIN, VX., zasl. mokhanizator UzSSR,-
GORELIKI I.M.p red.; ABBASOV, T., tekhn. red.
(cultivation practices in cotton growing] Agrotekhnika
khlopchatnika. Tashkents Gos.izd-vo UzSSR, 1963. 326 P.
(MIRA 17:1)
(Uzbekistan-Cotton groAng)
1. M.
Fruit Culture
To solve the basic questions of fruit culture.. Sad i og., no. 2. 1962.
9. ~ ~thl~ List of Russian Accessions, Library of Congress, may 1951, Uncl.
FILIPERKO, I. M.
"Leaf Feeding of Grapevines.," Vin. SSSR, 12, No.2., 1952
Name:
Dissertation: Me agrobiological properties of elite grape, seedlings
selected by TsGLAmen4 1. V. Michuriu and some peculiari-
ties in the developrent and fertility of grape vines
Demm-ee. Cand Agr Sci
Min Agriculture USSR,, Fruit and Vegetable-Inot imeni
I. V. Hichurin
Deftmee Date., Place: 1956.,'Idtburinak
Source: Knizbmya Iatopial., No 47, 1956
FILIPPBM, I.M.
W--- ~
I Some fruiting characteristics of the gr&p,,,,,, Biulonauoho-takh,
Inform.TSOL no.1:27-311 '56. (NM 12:1)
. (Viticulture)
FILUTHIM, I.M.
Accelerated fruiting In grape seedlings, Biul,nauch,-takh,
inform.TSGL noo2s7-12 156. (14IRA 1211)
(Viticulture)
---MME=
USSR/C~Lltivated Plants Fruits. Berries. M
Abe Jour Ref Zh iir Bi6l.) No18) 19~8, 825:36
Author Filippenko) I.M.,~
Inst Teat al Genetics Laboratory im. IN. Mich,,:xin
Title Relation of the Height of the Attachment of Cl~,.stere on
the Shoots of the,Grape Plaiitto the Coefficie-at of
Fruiting
Orig Pub BYU-L. nauchno-tekhii. inform, Tsen-tr. genet, labor. im.
I.V.,Michurina, 195'(, vYP- 3, 32-34
Abstract Studies at.the laboratory showed that the height of the
attachment of the grape clusters on the shoot is dater-
miaed by the value of the fruliting coefficient of the
variety with gLyen aGrotechniques an& by the influence
of the conditions of vxtertial enviroiment in the year of
the formation of embryo shoots on metabolism in the shoots.
Card 1/2
145
USsR/cultivatls4j: plants FinAts. Berries. 14
Abe Jour' Ref Wur:Biol'., No 18) 1958) 8-2531
Author. Fiiip,penko, I.M.
Ceatral Genetics Laboratory imeni I.V. Michuria
Title Dynamics of Dry in Grope Shoots after Green
Operations.
Orig lltb Byul. nauchno-tekhn. inform. Tsentr. ge,net. labor.,:Lm.
I.V. Michurina, 1957, vyP- 3, 35-37
Abstract On the "vines of the~elite seedling No I (Seedling Mal:en-'
g,m,.x Getsh):at-the Central Genetic Laboratory (Michit-
rinbk),~changes~vere.studied in the dry matter content
(-refractometrically)-in.the 5th, 10th, 15th and 20th
nideb of the shoots operated, on the 3ra, 6th and 10th
day after pinching, suckering and removal of leaves which
vab Carried out on the 20th of July in all variants.
Card 1/5
14t
USIR/Cultivated Plants - Fruits. Berries. M
Abs Jbix : Ref Zhiir Biol., No 18, 1958, 82536
Author : Filippenko, I.M.
Inst : Central Genetics Laboratory im. IN. Mich,:rin
Title : Pelation of the Height of the Attachment of Cl~~sters on
the Shoots of the Grape Pla7ut to the Coefficie-at of
Fruiting
Orig Pub : Byul. nauchno-tekhn. inform. Tsentr. genet. labor. im.
IN. Micburina, 1957, VYP- 3, 32-34
Abstract : Studies at the laboratory showed that the height of the
attachment of the grape clusters on the shoot is deter-
mined by the value of the fruiting coefficieat of the
variety with given aarotechniques and by the influence
of the conditions of vxteriml enviroiment in the year of
the formation of embryo shoots on metabolism in the shoots.
Card 1/2
- 145 -
USSR/Cultivated Plants - Fruits. Berries. . m
Abs Jour Ref Zhur Biol., No 18, 1953, 82536
The higher the coefficient of fruiting in a variety ana
the more cl-.zsters on a shootj the lower they are atta-
ched. -ti, 1954, 111 the variety Tambovskiy zelenyy (with
a high coefficient of fruiting), 4% of the shoots with
one c1c.6ter weta located on the third node, 98.6~ with
two cli',6ters, 1100~ Vith three and four clusters. On the
second node - 8.4 of the shoots with one cluster,
60.4~ with two clusters, 100~ each with three ani fo-x
clusters. Such low position of the clusters with their
larger nimber was observed in other varieties also. --
Ye.T. Zhukovskaya
is
Card 2/2
USSR/Cultivat~-d Plants - Fruits. Berries.
Abs Jour : Ref Zhur Biol-, No 18, 1958, 62531
Author : Filippanko, I.M.
Inst : Ceatral Genetics Laboratory imeni IN. Michurin
Title ; Itynamics of Dry Substances in Grape Shoots after Green
Operations.
Ori g Pub : Byul. nauchno-tekha. inform. Tsentr. genet. labor. im.
I.V. Michurina, 1957, vYP- 3, 35-37
Abstract : On the vines of the elite seedling No I (Seedling Malen-
gra x Getsh) at the Central Genetic Laboratory (Michia-
rinsk), changes were 5tvdied in the dry itatter content
(refractometrically) in the 5th, 10th, 15th and 20th
nides of the shov.'.s operated, on the 3rd, 6th and 10th
day after pinching, aiickering and removal of leaves which
vas carried out on the 20th of July in all variants.
Card 0
-- 142 -
USSR/Cultivatad Plants - FrtAts. Berries. M
Abs Joix Ref Zhur Biol. j No 18, 1958, 82531
C~i the 3rd day after the operatioli, an increase in the
dry matter co--fteat was observed in the variants in Vaich
the top and the shockers above the third node were piu-
ched off, With a complete breakiug off of the suckers
this increase was not observed, and with the removal of
the svekers and leaves, the dry matter content dropped
considerably because the assimilating surface was sharply
red,ced. Latt!r (on the 6 - 10th eay), aa increase in the
dry mat.Lt-r cor-tent ins notf.-d ia :.01 var-la-ats, i~specially
in the D;)er L.)-.ies of the shoots. w!iere -the proces-
ses were begiri--ing to recti-mca. i1i thct dry matter
,to tjj~. 4
concenT,ration ia -the nodes contr-O-rvt~d ~rrjprovement
in the feeding anti develop,;i-nit of the bi:ds foi-Ling on
them and the fertility of which became j~:reate_r. Complete
removal of the su(!kprs promoted a reduction of the dry
matter corcentration, resumption of the growth tendencies
and of the sprout,2ng of the viutering eyes with a great
Card 2/3
USSR/Cultivated Plants - Fruits. Berries.
Abs Jonr Ref Zhur Biol., No 18, 1958, 82531
m
decrease in the assimilating surface. V.V. Arkh3ngell-
skaya
Card 3/3
- 143
such.-takh. luforo*
(141P
.1-ILIPPINXIDO I.M. tu the grsl)ev'uo' Blul. U j 12-. 1
of ell*lto
,2SGL no.4-.13-19 C;eLturs)
(Viti .
-.7.YILIPPZNKO I.M. kand. sel'skokhoz. nauk
Characteristics of development and fruit bearing in the grapervine.
Trudy TSGL 6:199-238 '57. (KRA 12:10)
(Viticulture)
0
KMIMIN, A.Ya,,Acande sellskokhoz. nauk; FILIMZIMD,, I.M., kand. sallsk4khoz.
nauk
From the results of grape breedizg. Trudy TSGL 6:239-262 1
(HIRL 12: ~,
(Grapes--Varieties)
FILIPPBNKO, I. M., kand. sellskokhoz. nauk
Effect of pinching shoots and water sprouts on the bearing
capacity of grapevine buds. Trudy TSGL 6:489-499 '57,
(YaRA 12ao)
(Viticulture)
71LIPPEIM, Ivan Maksi'movich
--, `
(Collective farmer's personal vineyard] Prfueadebqi vinogradnik.
~bskva, Goo. Izd-vo selkhos lit-ry, 1958. 164 p. (141RA 12:1)
(Viticulture)
ipriUg Pgrioa Of-
wster by.Plaut riots aur'ng the ' 158- (MM 11.4)
-~b--;PtiOu Of alst' 5no-2..175-177 Mr-AP
Iriziol,r
motio laboratorils lachurinas
j.TSsutr&l'v0 ." Of water)
14io,huriusk* (yj,,tj,-Absorpti
m
USSR
IV!,. I, r-o
C to
1-0
Fzuit-
V
the SIXP'~-
.I U1 -L
it"s;
71p,?1*j.rjf" Of tal
Zt. blol !9
-,a
c huz 1 r. 0 1-,
On
, Tile-5 t1he
'a t
'MI Aode . above~
abovo lertv"
jode- ile
j, r,~_,c)v,. ;ho r, i
t lie _64,- -.1 'i)oji:11-nel h,iVe nh()~4T-- t1lat. tile
jglc, Z.Op Shoot shoot had
a je the
ar r") the pirst terLd-
(11 1
lhen the shoots ware
the
T13. or inflordsce-noe 'Okls varj.eties Of
ee. on -Pa!ujtinP villf's
tcvP
t 'CILIONPTED PLANTS.
xact vltts Como tc 1>6 P-Oduced On
tile fruit normally tb,-re.
'I'M.11-ar ranults wv~zu, 0
tn hav-!! in, - v ~d thint, tundril
Then A, 6 X'P~., LiO- c: --i" u
org.-?rt, ljoraoloaous to the infior-~.,scenco find
i2
an
-qual-itaii-vely di!~tilict from the ap~oout, inasmuch
;1,-) floviers mvex tl.~vejcp dia-.2ctly on it. Grape
s,3adHnp,s grOML at a 1~emper;--tture nover below -ILO
forjrod tendrils srd fzu-j't bud:i, lndi(jatinp, their
j;ratjon SI;Hp
passage through the vornal e at tile
2/v
I cats~gwy CUI.-I T E C PL A NITS, F
Abs. j,.-,jjr. REF
"a 11
r~lb.
Aba-tract :d&veIop-m,,ntal cycla, meny v6ge',Rtivo cones which
have not Pone th:rough tho 1,bird st,-,r,,e of dovalop-
mont rnd. havb the ability tO form veg3t-ative Or-
gans. Thu!~ trultbaRrIng buslie3 should not be
efillek-ft old in stage ae'L they ur~3 wont to ba consid-
ered tuday. The ch%nge in !,,rf)wrh of the grape
j. sciAli-ngs from monopodial to gympodial d1ohotomy
is e-.xplioabla by the* apical merlst~Irn of the shoot
having aori-ple-ted all stagas of development and
producing the flo~rnl shoot. The baato grovdng cone
4/5
CULTIVA-1 I:D ~-LMT:,:. ;:I?L)ITS
REF ZHUR-810L,21,1958,NO-9614 7
Autht-r
Orig. 11=b.
of t'pw ~7"-;Ipu na,dlinv pas!~t.,4 throuph all stapes
it" 1.~_2 -rior,tn and forms a tendril.,,
Pha er-ib.-v,
yc'ilic :1WCUt-9 i-n M19; IAKI:3 alSO 1110 throue)i
Stape IIL-~aloprl,~nt, Se the !.riflori"SOolices can also
for"i on tliq 3hoot~; arising 1'.rom t~LL~ ,,o%-,eqt stem
'OPrt of t1la 5e,.-dli which is the coty
Lng,
d0rislry -ode. Acc..,lerntud. I~rlliting in the se-Aliq0
t:II-,GS pyaue by strengtht-~Cling Plant growth, increas.
u
ing, the conc~intrati.-ii of niltrjant.9 qnij applying a
.3Y.9terr of pinchinp. ahoot,,j and nuakera durinp
fir:3t, yoars of t!I(A su_jejj , the
Fortunn-
tov
Carl:
5/ 5
FILIPPEVKO, I.M., kand. seliskokhozyaystvann7kh nauk
Results of studying the vegetation period of grapes in Michurinsk.
-1)
Siul. nauch. inform. TSGL no.7/8-.21-32 '59. (KMA 13.
(Michurinak--Vitioulturs)
'7,ZILIPPJNXO, I.M., kand.sel'skokhozyaystvenr7kh nauk
Iffect of gibberellic acid on the growth, development, and fruiting
of grapevinee. Agrobiologila no-5t770-77i S-0 160..
(MIRA 13:10)
(Gibberellic acid) (Viticalture)
FILIPMKO., I.M.~ kand. i3e1Ii3kokhozyayutyennykh rviuk
Effoot of the temperati=e and length of the day on the growth
and development of grape seedlings. Agrobiologiia no.6:810-813
u-D 161. (IMU 15-2)
1. TSentral3naya geneticheakaya laboratoriya imeni I.V. Mchurinal
g. Michurinsk.
(Grapes)
(Plants,, Effect of temperature on)
(Plants, Effect of light on)
FILIPPEIIKO,,.I.M.,, kandesellskokhmpystvennykh nauk
Grape brqeding in the central part ofl*e U*S*S.Re, Trudy TSGL
7s43-73. (MIRA 3.5 :10)
(Grape breeding)
1g,
T$)VSTANOVSKIY, Dn4triy Favlovich; NESTEROV, Petr Grigorlyevich; VDVK,
Aleksey Ahufriyevichj FILIPPENKOI I.T.., inzh., retsenzentj
i!t~_
APONINA, G.P... red.iz -va; SHAFETAj.S.M.,.tekhn. red.
(Labor productivity in Ukrain#n mitting enterprises]Proisvo-
ditellnost' truda na gornorudnykh predpriiatliakh Ukrainy.
Kiev, Gostekhizdat, USSR, 1963. 255 p. (MIRA 16:3)
(Ukraine-Mining engin.earing.-Labor productivity)
Filur 1. V.
36289 Torf--vazhneyaheye sredstvo okulituriltaniya pe3chanykh Nchv Folealya.
Izvestlya Akad. Fauk BSSr, 1949, No. 5, S. 93-103
SO: Letopis' Zhurnallnykh Statey, No. 49, 1949
Nit ash-u v Lime farfitfirn
I V
Vili
entr
d N
M
.
an
;
,
.
p
-7
U s S
No
-~~Peat af ter
2
3.1
ww has I
k
.
.
,
t
4L
burtied-In (ud, ~ontaims 22.G--M.05-Q:CaCO;, mid 2.6-15.1170
brgCOi. The Oltjs-oaffiparablel5i the dolowlte- liming -
futurur -fia ttvih~ ibe taff
- . TbeAntal anit
of baso W
.
.
4
the aih to 6
-11%.%igher than tbeqtu~of CX0, andINTgOl.
Litulnit.of meadows with the Imlyerl" pent aih is wo cf-
f, -61,1 1.:% (lit- lill'i"tr with other jini;ng (ettdbzrs- AX--t-
F
i'1 i'-N It
R!, S. ~i PUN 120 Va ~Z
Chmni-tis of Ilm dqre-i of of the
ii:) 111:1terial In dity pe.M-I~og "ih n'le. tfid'Aniow". of 11ho el-;~ roll
6111AICUIR deptodi"r 0" 010 W04 Of 60 Mitirl?U0,41 Of
311CIA'Solig. I - V. Vilipol I L:t. I I" i J k Id. Mg:A R "Wl~
dq'iC;2'f)f Ormiolmi. of, (Ili-- .,rg- imi(rd,if ill ~A 4mi%1c, of
K"'i" CNOi 'kild Fv~(Jtz + A),00 of N, pe,it L+4k- Our -;,Yll
(1111hi,tv'. ( WHO 111%~ aftvt 43 1953) ~yf q'i"; nilt'
viaEuij oa tilt,. wil. lirtA;~nn!imil of pA-L(q '.rntc-
fAvorable Col."Jiticior, f,)r 1--lims vlo'!"t the
43-year VeT61 thc akut. of fl-;~ org. material
b1cm-awd froirt '10-20 lliv:15-lki%, h:lth Ili the ~nif 0 '-'J cm.)
uyl,j with tile "tultrgiound viuttr cm. ilo-limpti.
tool; plm-,: mly Ili thr impi- 0-~A) cot. soit builzoa. 1q
fill Initalic-S the .1LIL Cummt of VIC peat Ul fln
soil linri4wi BJJ-20.0",," bl~ICVV-C IWLOUllt~ ';winl v 1.3
tile accumulatiov of 63. :11 -~ZL' wid 30-69% lit Luth hori.
Eons, mp. The. unit'. of Jif), 411til DIJ74T U01 Con.1titilvilts.
except ttw!,e for 00. atd AljQ,,, f1ccmi-ClA 21S.5-,
---74.W'~ (lubsoil) a~ it ri-lilt of the
"G."% (-ojil) and 11S.)
frim ting, F~,Oj wi~~ 11110. idrvn~ed' paticithrly
"
horizojl~ In (tic !~il holiz-ov. 1~iijg cvlova;etl
Z
.
i t-will; ~lll-
(Im atut, of I'l(tj iiwicm-wd 4 tinkt, ill thu';L nn
kcreawd 'Alth ill.
Cf(!d5k'Vj (t'eflfrh Of 0C 'Tnifil ~N Ificmimal 3-6470
lit tbt sell bmixon but w4ly 2.6-15% in tilt- qulj3oil. The
h1glic- Im Ilevel, of iindergrowid watu the more totRi
.'V"' ill pc.!~
FL'
UF
MI
!
TT,T STAKJF"jZXLA . NESTEROV, Petr Grigorlyevich;
)4SAT aAK- Ui,
nP tekhn. nauk) retsenzent;
AFONINA, G.P., red.
[Basic problems of the economics of iron-ore mining and
treatment in the Krivoy Rog Basin] OsnomWe voprosy eko-
nomiki dobyehi i pererabotki zheleznykh rud Krivbassa.
Kiev, Tekhnika, 1965. 206 p. (MIRA 19tl)
ni,
PEREPECHK.IN, L.P.,- FILIPPENKO-K.A.; PETROV, Ye.A.
Prospects for the development-of-the production of Acetate
fibers, and,their importancig. Khim.volok. no.1%64-65 163.
(MIRA 16:2)
1. Hauchno-issledovatellskir institut sinteticheskikh smol, g.
Vladimir.
.(Textile fibers, Synthetic) (Cellulose acetates)
L
ACOMIM URS AP404771S.:. 3/0021/64/00D/010/1311/1-313
AUTHORt -vaippim" ~Shchevbant. 0.,K. (8hohe*=1# A* H#)
Utilit4tion of heat Zenuvrited by nuclear explosion for intenoificalion
af oil extraction
&DURC&t AN UkrRSR. Depov:Ld:E,- no. 10t 1964% 1311-1313
TOPIC TA53i heet
!,J3ST-RVGTt Referring to American tectalcal literature the authoris discuss the
po.cielbilitles of using the heat of nvolear fission in oil extraction, They
di s4
the --lbution of timporature in the soil, alortly followimg tho
E;-.--plozion as well as a long time &M)rwaTd. Acooni;Lng Lo Lhe ak;xh
utiiization of heat io feasibla. Tho moan ttmerat%we of "he ground this
heated does not depreud on the ra:-.o of the fission, but on the mechanical prop-
orties of the soil ov4. Orig. art. hast 7 foraulas.
Card 1/2
L 13274-65
ACCUSION Nftt AP4047798
ASSOCI MON t Inatt tut -top oqnsvgatyj_,y*Au upsg (Inktitute of Heat and Pimer
Enginseriagp AN UkrSMI
SUBMTTED i l4Kov63 EVOLt 00 SUB GODEt AP, TD
(MuRt 001
1T0 Mm SOV 000
Card 212
FILIPPMO, L. G., Cand of Phys-Math Sc:i - (dics) "IonIzation and the Grabbing of
Electrons by Multicharged Ionss" Ibningradp 1959, 8 pp (Physico-Technical.
Institutey Acad Sci USSR) (KLi, 4-Wl 12.3)
FEDORENKO, N.V.; FIAXO I.P.; FILIPPEI;KO)-L.G-0-4p~-SOIDVYEVI-L;.--34--
"Electron Capture by Multiply Charged Ions."
report presented at the 4th Intl Conference on Ionization Phenomena in Gases, 'Uppsala,
W.21 August 1959.
24.2120,.)4.6ooo 77329
SOV/57-30-1-8/18
AUTHORS: Fedovenko, 11-4. V.', Filippenico, L. G., Flaks, I. P..
TITLE: Scattering of ftltiplc Chavged Ions With Simultaneous
Electron Capture
PERIODICAL: Zhurnal tekhnicliesicoy fiziki, 1%0, Vol .10, 11v 1,
pp 49-56 (USSR)
ABSTRACT: Introduction: Except for the Ar2+ Av+, scattering of
multiple charged Ions with simultaneous partial or
total neutralization has not yet been studied, and
the authors undertook to measure the scattering of
+
particles obtained from primary Kr , Kr"+, Kr
and Ne 2+ ions a~tev their partial or total neutralization
in neon or crypton. The aut-hovs investigatea at the
same time the small angle scattering of ions without
change in charge which can differ from the elastic
process by exciting or ionizing the atoms of the
scatterer. (I) Methods of ineasuvements: The apparatus
Card.1/10 .
consisted of a mass-monochrOMatOr Producing, a
Scattering of Multiple Charged Ions With '(71329
Sirpailtaneous Electron Capture SOV/57 -_30-1 -8/18
monoenergetic primary Ion beam, a 3catteving chamber,
and a movable magnetic analyzer. The diagram is shown
In Fig. 1.
card 2/10
Fig. 1. Schematic drawing of
the collision chamber and the
analyzer. (0) center of ro-
tation of the analyzer; (C1)
deflecting condenser; (Fl)
collector of the primary
beam; (F t
2) collector of fas
iot;s; U,3) collector of fast F
F_
neutral atoms; (s,) entrance
slit of the collision cham-
ber (size 4 x I ram); 02)
exit slit of f-he c6lliston chamber (size 10 X I MMA
(S able entrance slit of the recelver F r
3) adjust: 2
entrance slit of'the rece.iver F, (size 4 x 5.1 rrm).
Scat~terinL of Multiple Charged Ions With 77329
Simultaneous Electron Capture SOV/57-30-1-8/18
vard 3110
Neutral part icles reaching F,, described in detail by
Flaks and Solov'Yev (ZhTP,XXVIII, 599, 1958) were
registered by means of secondavy emission. All
measurements were made for Incoming Lon eneogy of
33 kev. Keeping the pressure between O.r: and l.. -. 10
rilua Hg the authors maintained single collision conditions.
Incoming beam. was of the order of 10-7 a, for singly
ionized a'Goms and In-8 to 10-9 a, for the doubly and
triply ionized atoms. They measured.differ-ential cross-
-not smaller than -16 2 . - 11
section 1 10 .cm., 2terad . for
singly ionized atoms 1 -, 10-15 CW.. ste'rad- 1 for
_14 2 -1
doubly, and I - 10 cm - sterad . for triply charged
ions.~ InVestigation in the 42.5 to 80 region showed
that in this interval the effects are below the
sensitivity of the apparatus. Probable error was between
IN -
_T1__ 7517_',~,~
RE
e U
Scattering of Multiple Charged Ions With 77329
Simultaneous Electron Capture SOV/57-30-1-8/18
+ 20 and :25%. (11) Results of measurements:
Figure 3 and 8 represent typical results. Overall
cross--section was defined as
(2)
f=0
The authors concluded that, (1) scattering with a
total meUtralizat ton .'of primary tons favors smaller
scatteringangles while processes with partial neu-
tralizatLon occupy a wider region; this is true in
the case of scattering on the same kind of gas or on
a "foreiii.,n" element. (2) The larger the number of
electrons captured during the full neutralization,
the wider the scattering angle distribution of particles
(see Fig. 8). (111) Evaluation of Ve3L11t,B: The
authors estimated thevalue of the total cross-section
using the equation
sin OdO (3)
aif 21r do)y
I -
0
Card 4/10 where Omax fixed the angle beyond which the ef.fdct.9
Scattering of Multiple Charged Iona With
Simultaneous Electron Capture
Fig. 3. Scattering of
Kr 2+ ionn in Kr. (1)
scattering without
change or charge; (2)
2+ o
transition Kr -->Kr
(3) transition Kr2+----i~
--:N kzr+; (4) overall
cross section G( 0
77329
SOV/57-30-1-8/18
Card 5/10
ed Ions With
Scattering of Multiple Charg
simultaneous Electron capture
Fig. B. Scattering with
full. neutralization of
priniary lons ' (,l Kr +--3-
---> Kru in K (ordinate
fiv(! times reduced);
2+, Two in Kr; (3)
(2) Kr 2+
Kr3-4~- VrO in Kr; 00 Ne
2+
--4Neo in Kr; (5) Ne
----> Ne 0 in Ne.
77329
sov/57-30-1-8
Card 6/1o
Scattering of Multiple Charged Ions WIth '(7329
Simultaneous Electron Capture SOV/57-30-1.-8/18
were below the sensitivity of the apparatus, Compared
with results obtained by.Flaks and others, who measured
the croso.13ectlons directly, the discrepancy was
never greaterlthan 115%, which was within the limit of
errors of both sets of measurements. To es'Amate the
distance of approach, the authors used the classical
representation of trajectories, justified in view of
the small incident energies, and computed the sighting
parameter P
"Mal
p (00) 2 (d7) sin Od~ 2 1 G (8) sin OdB. (6)
Table 2 contains computed values of 0 0) along w2i
with the -values of 0 0 for which the sighting parameter
is-practically equal to the smallest internuclear
Card 7/10 distance r01 of the'.two,colliding particles.
Sdattering of Multiple Charged Ions With T1329
Simultaneous Electron Capture SOV/57-30-1-8/18
Table 2.
+
Pa. I V. A A
2 3 4
Kr+ iii Kr . . . . . . . 1.50 1 8
Kr2+ -in Kr. 0.7 1.5 7.5
Kr2+ irt Ne 1.1 Z5 5.2
NO+ 14 Ne . . . . . . . 0.9 7 3.5
M04- in Kr .. . . . . . 0.9 2 5.7
Kr3'1- in Kr . . . ... . . 0.15 2.3 6
The fourth row in Table 2 was computed using values
or formulas from the book by Gambosh (Statistical
Theory of Atom and Its Application, IL., M., 1951).
Whenever, 0 0' ) came out larger than r I + r a
the authors deduced that Eq. (6) in that case 13
not applicable. The differbnees.in..thia width.,of
the angular distribution in cases of partial and
total neutralization of Incoming tons the authors
tried to explain In the following manner: At an
Card 8/lo approach, the potential fbnction of the Ion and atom
lMna r i_iv 0 -.0,
M
'M'
rM
'Scattering of Multiple Charged Ions With 77329
Simultaneous Electron Capture SOV/57-30-1-8/18
looks like V(r) curve 1 in Fig. 9.
Fig. 9.
If there Is no change in ionization or if' there
is a total neutralization, the V(r) curve remains
.the same. In the case of a partial neutralization,
howevev, the interaction after collision is given
by the Coul&ub curve 2. Professors V. M. Dukellskly
and D. M. Kawinker discussed the results, and A. M.
Shchenkov helped In the adjustment of the expert-
trient,,:tl deviceS. 11.1here aL-e 9 figureo; 2 tablen; awl
Card 9/10 I-,i references, 10 Soviet, 3 U.S The U.S. references
'Scatter,ing of' Multiple Charged Ions With 77329
Simultaneous Elcctron Capture SOV/57-30-1 -8/18
ASSOCIATION:
10JUBMITTM
Card 10/10
are; E. Everhart. R. S. Carbone, G. Stone, Phys.
R-v., 085, 1045 (P)55); R. S. Cai-boric, E. 14, Fuls~,
E. Evephart, Phys, Rev., 102), 1524 (1956); P. R.
JoneL;, P. P. Hemba, 11. A. ftses, E. Everhart,
Phy.,i. Rev., 113, 182 (1959).
Phy:,1co-Technical Institute AS USSR, Leningrad C.
(P'Lz1ko-tekhnicheskiy institut AN SSSR, g.
rad
July 20, 1959
MEN
24.6ooo '(7330
30-1-9/A
S
'OV/57
AUTHOR: F liprpenko, L. G.
TITLE: Analysis of Systematic Error During Small Angle
Scattering Investigations
PERIODICAL: Zhurnal tekhnicheskoy 'Lizilci, 1960, Vol 30, Nr 1, _~P 56-
62 (USSR)
ABSTRACT: (1) Differential scattering cross sections are calculated
from the angular distributions of scattered particles,
i.e., from the values'N(g) of the particle flow in a
particular direction, The finite resolving power of an
apparatusalways introduces a systemati-c error which
cannot be reduced indefinitely, since the resolving
power of.an instrument is Inversely prDportional to
its sensitivity. This is especially bad when one works
with low incident beam intensity and also when one
measures small angle scattering where -the resolving
power of the collimator is particularly poor and the
relative error consequently high. The author felt,
Card 1/9 therefore, that it was absolutely necessary to take
Analy,,;Is of Systematic Error During Small -_~ -.? ()
77 )-1
AnF,le Scattering Investigations SOV/57-30-1-9/18
into.account the errors of the apparatm when computing
cross sections, and developed a method -to that end.
He also developed a way for estimating errors due to
angular divergences in the incoming beam. (2) Theoreti--
cally the differential cross section is obtained from
d4l 1, dy(~' 0)
W_;7d;d_- _tF(x_)
where N(x) is flow of the incident beam to be scattered
at point x (the OX axis is oriented along the beam direc-
tion); dN(iji , e) is flow of particles Scattered from
region dx into the angle i/j (vertical plane) and 0
(horizontal plane) with respect to the incoming beam;
n is concentration of gas molecules along the beam axis;
d W = sin9d94 is infinitesimal solid angle inside
which the flow dN( , 9) is propagating. In practice,
Card 2/9 the pertinent equation-is
Analysis of Systematic Error During Small 77330
Angle Scattering Investigations SOV/57-30-1-9/18
(,i (xl) - W (x,), because the integrands dN( 11)
xi and 011( q), e)j X2 are in general different. To
take this into account and reduce the possible errors in
(3) with respect to (1), the author proposed to substi-
tute the Integral In the denominato), of (3) by
SO) Ykj -(x)dx, (4a)
where one may take for the "weight" k(x) of a parti-
cul.ar U) (x) in 8k x (the k-th interval of x), the reia-
tion
fk 6k)
Card 4/9
Analysis of Systematic Error During Sm3ll 77330
Angle Scattering Investigations SOV/57-30-1-1~/18
N (13) 1
bat
Ax(R)
with
(2)
V (to, X) dN 0). (2a)
where (X) is a finite "collecting angle"; [-I X(Q) 'is
the final i3cattering distance of the Incoming beam N 0
Looking at Fig. 1, one notes that I/( CAJ , Xl) is, In
Card 3/9 general, different from V x2) even when
-IM MMMM
Analysis of Systematic Error D~rlng Small 77330
Angle Scat.tering Investigations SOV/57-30-1-9/18
where 9kis angle through which a particle originating
at 8 kx has to be deflected to pass through the-colli-
mator slit; N(G) is the experimental angular distribu-
]max is the largest of the values
tio n; [N( ~k) of,N(G)
for the various corresponding 0 = 91t occurring for a
given 0. Using completel analogous reasoning, the
author concluded that N((j and d & /d should be.related
to the effective angle
(5)
instead of to angle G. The "weight" IP k Of the corres-
ponding angle 9 is given by
Ic
akiv ((3)
-
ff
04)
Card 5/9
-I,-- -T-
7-1
T~4
.I r117 I * M.
. . . . . . . . . . .R FIX