SCIENTIFIC ABSTRACT FILIPPOVICH, YU.B. - FILIPSKY, Z.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000413130001-8
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RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 13, 2000
Sequence Number:
1
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
Nothod of bydrolysto of protein pr~psratjons in a cogparatije
analysis Of their amino acid composition, Tbp,pjt. 19 no,lt72-
73 Ja-P f60. (KM 13;3)
1. Iz kafedry orgaulcheakey i 'biologicheskay khImli (xav. dotlent
A.N* amolin) Moskovskogo gosudarstyennogo pedagcgichaskogo insti-
tuta, imeni T*I. Lenina.
(ININO ACIN chemistry)
(FROTIM chemistry)
(7WD chemistryY
FILIPP
Changes in the amino acid c0imposition of tissue proteins under larval
development of the Chinese tussah moth. B~bkhimiia 25 no.6:1065-
10`~2 N-D 160. (MIRA 14:5)
1. Chair of Organic andliological Chemistry, the Stat-e Pedagogical
Institute Mosoow.
tAMINO ACID HETABOLISM) (LARVAF~-INSEGTS)
~VICH) YU~B.
Fifth International Biochemical Congress. Dim. v ohkole 16 no.6:
91-93 N-D. 161. (MA iim)
(Biochemistry--Congresses)
Structure of a protein molecule. Xhim. v shkole 17 no.5-.
8-23 S-0 162. (MIRA 15:9)
(Proteins)
IM
R, - j-, I ~
FILIPPOVIGH, Yu.B. (Moskva)
M006nism of the biopynthesis of silk fibroin. Usp. sovr. biol. no.
2s192-2.10 Mr-Ap 164. (MIRA 17t4)
-W-
FILIPPOVICH, YU. B.; 3,ELYAYEVA, N. N.
Specificity in the blosynthesis of silk fibroin. Dokl. AN SSIIR
155 no. 2:468-469 Mr 164, (MIRA 17:5)
1. Moskovskly gosudarstvennyy pedagogicheskiy institut im,
V* I. Lenina. Prodstavleno akademikom N. M. Sisakyanom.
n-y
BAUMAN, V.M.; YAGODIN,!~T-Y, V.N.;
ZI HLI P -P1 -CY
Clinicoepidemiclogical characteristics of an outbreak of
botulism related to ingestion of premmed flourder. Zhur.
mikrobiol., epid. i irmun. 33 n0-7:92-95 JI 162.
(MIRA 17:1)
1. 1z maditsinskoy slushby Tikhookeanskogo flota.
SAPPAV.IOVS,, AePaj PILVPovm lb V,
"U p4v4)gm laity . of
"OhOVIOhIS' 0024 Zht*. qM. I IMM,,
MAW A 166 43 no* is
Subdt%d FeftmI7 ut, 19656
w M-2
IV,
I'mrsda. toroat strips. and solistirls. 1. S.
1931, W,"'fiiiiml it the
ltl,iwf culls of the lionds and lwtwctlt lite Al'iter I.-IIA at the
Ifilit. Mat"). As inuch as *25-:; of Ih,
e%CI%41%XC valwity of slatut Sok"Irtit %)%$Is cmilsteil ot N.t.
It it postulated that therL*e In watts table astif accuittutAtioxt
o(Na s2its In the parish, which are recipienu of SUr(ACV 541tS,
Are mpotWbie for the phenomenon. I . S. Joffe
Filippovidt (Age Inst., Gorki). ?&ch-"uedrme
iartz &-trid rewatedly boiled in 1W ~
I (CI was riia~c~ with RIO until no test wa-- c itained fo~~ cl
alit, Fe. S& org. tuatter was rittained by umloviug tht,
ho-z". from a cheriaoxem wil with NH,,C] nnd c!LJvzini; fl:.
Inate-6111-ec-Df Cl-k cQ1!Wdz&m-Am.-vf*ydmwI wis
nisou priusx]. The c1cam svird,was treated %vich org. tuatter
the'suptiltatant
-added iii-4affi; fiJbiwid w ith
the add& j1M t at
d
1"w1um mauc
IF-the-)4itif r Wmcre-notv
if
-*Z~ 4ele
JTdf
IMTOCIci firmit the kilid grain$. Whirn the addli.-Of OrIc.
Mitter was 641"w"11 %~ ith. VC.0% scil the cwccl did "m Coble
till- sand graitis. Itim,ever, wilen the Fe,Oj wi tias addm
Ist, follinved by tile a4dn, of the orl. m2ttef ext., the sand I
Crains litizame crArxed braiva. Similar tc-.ts ivere madc on
land in 2.5 cul. di-im. tub;:s. The Fe,.03 treatm-~nt f,)I-
liswed Worg. mallu g,ivc a dark brown untiag, the orl.
sitatter atutte tv~,t casity ~vohcd (tut atid t1tv, Fc,O, -Moac g~tvc
it slight coloration, Simil-ur tests in dishes gave the saine-
results. In tills m3tltxcr~ kes pl--;c,!, irri:-
tipwive of thl: Ulf of
Sit a Struicture -is dictatc& by
Ation
g; qtation, the ftWeir
t tively charged Fg,011 fiallovicil by orx,
watter n 7- P chei (Lda (A p(xtz(jIiz'td im13 w0l
1(14 i~ulvgaied In which tile FCIOS Was respon-sillic f"r tile CDntli-
Ito". lit chernotem the CLItelps tati-irm the membranesof
Ilydraud rerol. 1. J& loffe
F-TUPPOVICN, Z.S.; PETRIK, K.f-,- -al-tv- AVEPIVANOV, K.G.,".
rUKOV61ITZ11 rabot ; Priniwli.uqh.&014y!~~,~, KACHANOVSKgA, Z014),
GAN7MAN, Ya.L; WSID, B.S.; -GORBACHEVSiAYA, M.S.
Increasing the coefficient of utilization of fre.;h fruit a-nd berries
in the winemaking, juice and liqueur-,and-vodka industries. Trudy
BNIIPPT no.4tl29-V+4 161. (KM 17ilO)
ZVEREV, L.V.; SMIMVA, N.N.; FILIPPOVSKAU,, T.B.
Solubility of rook-forming silicate minerals in sulfuric acid
solutions. Min. ByrIe no,0134-147 162, (MMA 1634)
(Silicates) (Sulfuric acid)
GLAZKOVSKIY, Aleksandr Aleksandrovichj- YERSHOV, A.D., glavnyy red.;
ZUBREV, I.N., zamestitelf glavnogo red.; ROGOVER, G.B., red.;
GUDALIN, G.G., red.; KORFSHKOV,B.Ya.,, red.; MOND711I, G.S., red.;
POZIJARITSKIY, X.L.p red.; SM'IRR)V, Mt, red.j SOLOVOV, A.P.,
red.; TROYANOV, A.T.., red.-. FILIPPOVSYAYA T B. red.
[Nickel. ] Nikell. Moskva) Oosaeoltekhizdat, 1963. 281 p.
(Otabi~m-mertorozhdenii pri poiskakh i razvedkaYh, no 20)
(MM 17:;)
.N
EGELI, Lev Yevenlyevich; YERSHOY, A.D., glavnyy red.; ZUBREV, I.N.0 zam.
glavno o red.; GUDALIN, G.G., red.; KRASUIKOVP V.I., red, [de-
ceasedl;KORESHKOV, 9.Ya.,, red.1 MOMDZHI, G.S., red.; POZHARITSKIY,
K.L., red.; SMIRNOV, V.I., red.; POLOVOV, A.P., red.; TROYANOV9 A.
T., red,; FILIPPW-KA--XA.-,T.B_, red.; KHRUSHCHOV, N.A., red.; CHER-
NOSVIM -Tu-~L., red.; GINZBURG, A.I., red.vypuska; PROKOFOYEV, A.
P.p red.vypuska; SOKOLOVSKAYA, Ye.Ya., red.izd-va; BYROVA, V.V.,,
tekhn.red.
[Rare-earth metals.] Rodkezemellnyo metally. Moakva,"Gostoptekhiz-
dat, 1963. 332 p. (Otaenka mostorozhdenii pri poiBkakh i razvedkAkh,
no.21). (MIRA 17:2),
a
0NvX.Tui-;-ALMXBANNOY~-fW -.-. FILI-PP-0-YRATA, V.I.
Correct utilization of-hospital beds. Govs~drav. !
lov.sdrav. ~ no-3:30-33
s-o 156. (mm 10.-1)
1. Is bolinitsy imed Karla Marksa (Leningrad)
(HOSPITALS
distribution of beds in bed shortage & Indic. for
stay in hospe)
Ral I jr
fit IF-
Ell
IL Is
3
g6
6o
1r I in
JI-
Sw
,, ~lr
1r
BEIRLINI. A.A., MFELI. T.Ya.; SIVERGIN, Yu.M.; FRAFFOV-~KAYVI, Y1i.iM'.'-
.0F. - SHASHKOVA, V. T.
Study of the properties of hardened polyester acrylates vith
different polymerization Coefficients. Plast. ma!~sy no.12:6-9
164- (MTPU 180)
.-32169--66- --- P-WANUM )0q ----Ijpfr R"
ACC NRiAP6012139 (AY SOURGE CODES W041346/00010q7/0037/0057 ~10
MVEATORt AWlino, A. A.; K?fali~ T. D&.; ri1igR2&fta, Yu. m.1 si
Korolev, V. V.; Majawnimas L. I.; Leo ~-k be 40
ORGs none
TITLE: Preparation of polyacrylate esters Class 399 No. 180335
SOURCSt IsobretenVal prosyshlemWe obrastsy, tovarpyya anaki, no. 7# 1%6# 57
TOPIC TAG$s polyester,, aorylatej, polymerization
ABSTRACTs An Author Certificate has been issued descijLbing a method of preparing
polyacrylate esters by low-tesperature pplynerizationAn bulk of monomeric and
o3-igomeric acrylate eaters in the presence of percxido Initiators. Tospeed up
the procesa the system benzene rr roxido plus polyasophanylons plus,filler with a
developed surface such as PK-3 !!7-40jis suggested as the initiator,~ The polyzerisa-
0 K
tion is carried out in tfii -presence 6f an inhibitor of sodium potencyp for instance
benzoquinons or diphenylamine. ELD)
SUB COM 11$07,AUBM DAM 22hug62
e2on
YILIPPUVSXIY. A., inzhoner-mayor.
Guided jet missiles of the U.S. Army; surrey of the foreign proms.
Voon,vost. 36 no-7:70-76 11 156., (KM qt8)
(United States-Guided missiles)
AID P - 763
Subject USSR/Aeronautics
Card 1/1 Pub. 135 9/15
Authors Grigorlyev, N., Eng., Lt. Col. and Filippovskiyj L.j
Engineer Major
Title Infrared technology and its application to aviation
Periodical Vest. vozd. flota, 11, 57-70j N 1954
Abstract Infrared radiation is currently utilized in modern war-
fare, especially in aviation. The author explains the
nature of this radiation and describes how It is used.
He deBeribes the principles of instruments based on in-
rrared radiation, such as: photoelements, b6lometers,
receivers with thermoelements, optical-acoustic infra-
red receivers, electrical sights, electro-optical tele-
phones, thermo-range finders, etc. Diagrams.
Institution : None
Submitted : No date
Subject USSR/Aeronaut ics - electronics AID F 4982
Card 1/1 Pub. 135 - 10/26
Author Filippovdkiy, L. S.., Eng.-Lt.Col.
.0off"Wo" t
Title Semiconductors in an airplane
Periodical Vest. vozd. flota, 9, 57-65, S 1956
Abstract The qualities of materials used for semiconductors and
the principles of functioning of diodes and triodes are
described by the author. Because of the small size and
high efficiency factor of semiconductors it is possible
to equip the aircraft with various kinds of electronic
computers. Six diagrams, 2 photos. The article is of
informative value.
Institution ; None
Submitted : No date
E~rdraullo eyaten for mixing primer paint no. 138 Sallkhosmashina
no.9:27-30 s 154.
OaRA 7:9)
1. Rostsellmash.
(Paint machinery)
FILIPP"any, P.M.
N'g the lose of heat In painting farn machinery parts
dipping into heated paint. Selikhozzashina ulp.6:27-30 Ja '56.
(MM
(Machinery-Painting)
by
9:8)
BYKADDROV, G.I.; IGNATENKO, U.N.; FILIPPOVSKIYp P.M.
Radiant heat chambe drying painted products. Trakt. i
sellkhotmeh. 8:414Z Ag 158. (MIRA 11,18)
l.Val.dimirokly traktorny7-zavod im. A,A. Zhdanova.
(Clutches (Machinery))
-5-
M
!N!
FILTrPOVw,"-.1y, sot,16
Theo--.r of thawing-
, cwd freez`nr
. , of dispersed Zroc,s around a
piFe with forced circulation of the heating r,~diur.,,. ''Prud
001H no.10-97 160. 14:-,i~
(';'Cat-Transmiscicn)
~Fro:--.cn ground) -
FILIPPOVSKly..
Using air with
Trudy Sol WWM2 negative temperatures for freezing i3oi-Is.
M nce2s59-65 162,
(.MIRA 1711)
FIIJPFOVSKIYP S.M.
MaIdng calculations for a frosen core allowing for a
change in the temperature of the beat transfer medium at
different depths. Gidr..stroi. 32 no.12:42-43 D 161*
(MIRA 15:2)
Dame)
il freezing)
t
FOAKHAYEV, G.V.pkand.t9kbn.nauk; FTI.DOROVICII, D.I.; SHLIKI111, I.V.;
DUK111N, J.1e.; DH,,eEWrvV) Y.H.; SMI, Yu.L.;FEL'DKAN,G.M.;
FILIPPOVSKIY, S.M.;
(Thermal physics of freezing and thawing soils) Teplofizika
promerzaiushchikh i protaivaiushchikb gruntov. Moskvao Nauka,
1964. 195 P. (MIRA '17:8)
1. Moscow. Institut merzlotovedeniya.
Country : U33R
CATZGORY : Farm Animals* Swine
A33. JOUR.' I RZBiol., RO& 13, 1958o NO- 59571
AUTHOR FilUpovskiyv T. P.
INST. Bashkir Agricultural Institute
TITIX Defective Development of Testes in a Boar
ORIG. PUB, Tr. Bashkirsk. s.-kh. in-ta, 1956, 7, 276-
279
AB3TRACT Both testes, one of which was twice as large
as the other, were located in the left part
of the scrotum. In the smaller testis, sper-
matogenesis was less marked, probably as a
result.of its constrictions--- M. B. Novikov
CARD: 1/1
FILIPPa-TSM) To P. (Docent, 'Bashkir Agricultural Institute)
"The regenerative ability of the testis in rams during the post-castration
period"....
Veterinariya, vol. 39, no. 8, August 1962, PP-'53
--.---------FILIPPOVSKIYP V. -S.
[Work practice of the Lubyany Sawmi Iling Industry with now technol~vl
Opyt raboty Lubienskogo looproakhoza po novottakhnologii. Mookya.,
Gooleabumisdat, 1953. 46 P. (MM 7:4)
(lumberiw-Nachinery)
71LIFFMOLff. T.S., inshener.
v vp M'-
Skidding untopy9d $rose. Xokh,trud.rab, 9 nool0122-25 0 155,
(Umbering) (KDRA 9:1)
OF,
. A
Nk �IZ
M~nw,,i I.- ,nma On- WOO A Wi
MWE I BDOX E07WITATION 6og
Nryaginj B. V.) Zakhavayevaj N. N., Tajayev~ M. V., and Filippovskiy, V. V.
Opredeleniye udellnoy poverkhnooti poroshkodbraznykh tel 0-65FRO-t UYU
filltrataii mzrezhe=oep vozdukhe (Determination of the Specific Surface of
Powders on the Basis of Filtration Fesistance to rarefied Air) Moscow, Izd-vo
Akademii nauk SSSR, 1957- 59 P. 4,000 copies printed.
Sponsoring Agency: Akademiya nauk, SSSR. L2stitut fizicbeskoy khimli-
Ed, of Publishing Ebuse: Shteyabokp G. Yu.,; Tech. Ed.: Polesitsksyn, S. M.
PURPOSH: This pwphlet presents B. V. Derjagin's method of determining specl
I 4e
surfaces of porous and powdered nibstances for use in various fields of
tecbnology. It is meant for rem!arch workers and for workers in
industrial laboratories.
WWAL40: The authors describe Deryagin's method as a simplified and rapid
method for the determination of specific surfaces of porous and powder-
ed substances. The method is based on the theory of filtration of
rarefied gases through porous mellia, takin into consideration the
Knudsen flow. Chapter one gives a detailed description of the determin-
ation of the external specific virface from the steady state flow of
rarefied air. The equation for -the specific awface is:
CaiA 116
Determination of the Specific Surface of Awders (cont.) 6o9
24 /72 IL
L
90 vvr
2 3 QV-MR-T A x
eM~ressed in IS0 cm/cm;
wbAire 2 specific surface (in cm2 per 1 CM3 of the porous medium)
quantity of moles of air flowing through 1 cO of a porous layer
A X CM thick per second, with a pressure drop across the porous
medium A p dynes/cm 2
23 "porosity" equal the ratio of the pore volume to the total vol=e
of the medium
- mean molecular weight of air (29.3 g/molea)
R - universal gas constant in erg/mole. degr.)
T - absolute temperature, K
Carl 216
Dotermination of the Specific &wftce of Powders (cont. ) 609
The apparatus (Fig. 11 2) was constructed at the InatittAe of Physical Mwmistry,,
All USM. It does not require a skilled operator. The determinations can be ac-
ccuplished in 20 to 30 minutes with an accuracy of 2 to 5 percent. The avemp
porosity was accepted as 0.5. For certain powders, e.g., quartz, the specific our-
fi3ce value can be related to the 0.5 porosity value after introduction of a cor-
rection into the formils
0
qAx
as suggested by S. G. Shvartaer. This empirical correction equals 1 for 0-5:
h
so K hJ~-11 - -11L--- tKote: x missing in text]
9
where K a constant of the apparatus
h - pressure drop acamss the sample (in cm)
P
h a flow-eater redding (in
q
Table 6 gives a comparison of results obUined by means of the Deryagin method with
Card 3/ 6
--- -- --- Ixtermination-of the -Specific- SurbLee of Powders (Cont.) 6o9
results from several other metbods used for the determination of specific surfaceo
of' carbon blacks (investigators: %sner-Pblyakova, Brunauer-bmt-lbller, 11arkins-
,%ra, Zuyav-MLkhaylov,, Laboratory of Acklemici= A. N. Frumkin, Laboratory of Acade-
mician 14. M. Dubinin).
Part n describes the determination of Ue total specific surface of porous media
aD1 powders based on the transient filtration of rarefied air (Knudsen flow). The
to-tal surface includes surface areas of blind pores and ebannels. The equation
used is
81 = 144 L
13 1-5 x2
wbore 9 - specific surface in cm2 per I cm3 of the porous medium
1
= POrOsity, equal void volume/total volume
x = beight of the sample,(cm)
time lag (see.)
IM' molecular weight of the gas (g./moles)
R universal gas constant (erg/mola.degr.)
T absolute temperature., *K
and IS 1 1
CM
Card V 6
Delnrmimtion - of -the - Specific Surface: of Powders- (Cont
4. Calculation of the specific sta-face
5. Determination of the specific iturface of coarse powders
6.
609
Paz+. 3:1. Plathod for Determining the Tote-1 Specific Sur-ftee of Powters and
Pbrous Materials
.1. Apparatus and measuring methods
2. Yeasumment, of pressure
3- Results of measurements
Conclusion
Bibliography
Ap;endIx 1
Appendix 2
AVAILUM t Idbrary of Congress
Card 616
HKIfal
9-17-58
21
29
32
33
37
39~
41
42
43:
53
DIRYAGIN, B.V.; ZAKHAVAYICVA, N.K.; TALATNV, N.V.;,. IFIIJE92~ T ~-v -
Methods and apparatus for measuring the specific surface (or
dispersity) of porous bodies apd dispersed wgterials by the
filtration rate of rarefied air. Trudy Inst. fis. khim. no.6:
131-139 157. (MIRA 11210)
(Por"Osity-Hessuremant)
AV, v 4-
vile ~4 51
lie
31
jAg
jar
MMTAGIN, B.V.; ZAMAUYEU,
'gitIPPOVSKIT. V.V.; TALAYIV, M.T.
betermining total specific surface areas of powdered and
porous bodiej [with summetry in Inglish]. Inzh.-fiss.z,hur. I
n0,8:98-1101. Ag "58- (min n:
l.Inatitut Roskva.
LUTHOUS Nr D.Y., Teroln, V.S., GrechayUk. R.L.,
MCin runu , T.Y.
111181 Determination of th-) Specific Surface Area of Powders
in the Production of Rard Alloys
'FMODIOALt
yr 11 -60 OSSR)
Isystn"t axtalu, 1959V $ vp 55
ktK2&n s This work has been carried out In order to see whether
it is possible to 4stormina.more accurately the
I
po Me surface 61' powders by using ral tively simple
thods were
'
:
qtotj:. The foll.oving gas pore
Usedt Carman's sethad using PoN.24
systoa of gas
flow.through a layor al powder, and B.T. Dorgglo's
method with KnudestaOs molocid4r) system. he
results of the determination of-the specific surface
area by %be gas porosity methods were compared with
them* of the "thyl alcohol vapour adsorption moth".
t
The low tempers UZO :ds rption of nitrogen a hod u ed
:1
;
.thod
or
ft---Uer (Ref.j.) as used an the control
t d termination of the specific surface area of
Card 1/5 powders of below 40p grain size. The vp*GMo surface
h
l
d f
i
e
ate
ram t
r
area of couser V)wders was calcu
DMIAGIN., B.V.1 MNMINy V.N.; GRECIINYUKp RAO'l ZAKFAVAYEVA~ N.N.;
V.V.; FUNICEp V.F.; IDFATINA,, A.M.
Methods of deterlaining powder dispersivity in the
production of hard &Uoya. Sbor. trud. VNIM no.2:158-
171 160. (HIPA 15:2)
Powder metallurgy)
sperdmetry)
M
ACC NRi AT6036296
--�066E 6iDE,:"-,U,,P/000,0-/'66,/6oo/obblol93?0263"-.'-',
A11111011: Fili2povskiy, Yua N.; Semenenko,:V. Ye.., Nichiporovich, A. A.
ORG! none
1-01
TITLE: Optical properties of a Chlorella suspension during the action of complex
radiation spectra
SOURCE: AN SSSR. Nauchnyy sovet po komplekanoy probleme Potosintez. Votosinte-
ziruyus1~6hiy'e-sIstemy vysokoy produktivnosti (Photosynthesizing' systems of high
productivity)..Moscow, IzdjvG Nauka, 1966, 193-203
TOPIC TAGS: Chlorella photosynthesis, mass culture AA-,L"t~t,
ABS'ARACT: The problem of determining the propagation of radiation of complex spectral~
composition in a Chlorella suspension was discussed. Most researchers studying the'
propagation of monochromatic radiant fluxes in the photosynthetically active range of
wavelengths In flat Chlorella cultivators have supported the hypothesis of the
exponential attenuation of radiation in a Chlorella suspension. nuantitative analysis
shows this approach to be inexact. - Dependences of energy and ouantum transmission
coofficients of a Chlorella suspc:nsion-(strain Moralla a *v. K) on the optical' density
anti thickness of the cell layer were calculated for rndiation spectra of light
.sources widely used in the mass 'cultivation of algae. V-e deep layers of, a Chlorella
sunpension have a greater transparency for fluxes of photosynthetically active.radia-
ACC&ki AT6036296
30604 and
-f- endh 'lamps, incandisi'!'en~t reflector lamps (color temperature
tion f6
ltrnineScent lamps than do the surface layers of the suspension. Ouantitative
'ffifi _jF" . I - The quantum content in an energy
characteristics of n tiiiiW'we're obtained.
o me in a
unit of photosynthetically active radiation is constant for any elemental V lu
Chlorella cultivator in spite of great differences in the spectral composition of the
light, The range of spectral transmission coefficient groups of Chlorella for
es like those for
different tell concentrations and layer thicknesses contains curv
phothsynthesis of a Chlorella cell
leaves of higher plants. The dependence of the
n susp can be
01i the density of quantum fluxes obtained for optically thi ension layers
Used as the basis for calculating the'-photosynthetic yield of cultivators and for
rt. has: 4 figures and
designing apparatus for mass (,,Ultivation of algae. Orig. a
5 formulas.
OoB/ oTH MWI 002t
SUB CODE:* 06/ SUBM DATE: 25May66/ ORIG REF1
ATD PRESS: 51o6
_NR,"_'_d60J6197
AUTHOR: Filippovskiy, Yu. N.; Nichiporovich, A. A Semenenko, V. Ye.
ORGt none
TITLE: The distribution of radiant energy in a Chlorella-suspension
SOURCE: AN SSSR. Nauchnyy covet pp komplekanoy probleme Fotosintez. Fotosinteziru-
shchiye s1st-eimy vysokoy produktivnos*ti (Photosynthesizing systems of high productiv~-
ity). Moscow, Izd-vo Naukav 1966, 204-212
TOPIC TAGS: chlorella, photosynthesis, Cal C+
ABSTRACT: A method of estimating the intensity of radiant energy in plane-
parallel Chlorella cultivators was described. Experiments were conducted with
Chlorella sp. K., a thermophilic strain with relatively small cells and evenly
distributed chromatophores.' Chlorella was cultured at 36C in a cultivator 6 mm
thick, illuminated fr6m two sides with luminescent lamps (intensity of photosyn-
t'aetically Ective radiation up to 40-103 erg/CM2.sec from each side). Air con-
taining 1.8% C02 was bubbled through the suspension at a rate of 200 liters/hr.
Tate cylindrical cultivating tank had mirror ends to eliminate scattering of light
through the end walls. The exponential dependence of spectral hemispherical coef-
ficients of transmission of a Chlorella suspension on cell concentration and cell
layer thickness was determirt d for all useful values of cell concentration and layer
thickness. (The hemispheric:l coefficient of transmission v,;. is defined as-the
Card 1/2
ratio of the value of f.lux W,-:emanating 'from the cell layer into half space 2v'to
value of flux FO incident 'on the layer surface.) This exponential dependence is
satisfied with identical accuracy for all. wavelengths in the range of photosyn-
t"Iletically active radiation. Spectral directive coefficients of transmission (flux
emanating from the solution in the direction of the flux incident on the surface)
show selectivity at cell concentrations above 150-106 cells per milliliter. The
dependence of spectral directive coefficients of transmission on cell concenLration.
and cell layer thickness conforms to Bouguer's Law only at.low cell concentrations.
Values of a spectral hemispherical absorption coeffidient for ChlolvIla sp. K. were
obtained for a wide range of conditions. Experimental results can thus be used to
calculate the light span in.a Chlorella suspension. Orig. art. has: 5 figures and
3.0 equations.
SUB CODE: 06/ SUBM.DATBI,, 25May66/,- RZF:~ 012/ OTH REF; 007/ ATD PRESS:5106
Card 2/2
Steel metallurgy of the U.S.S.R. in the seveh-year plan. 'Viad
-~ut 16 no.lN297-3bl 0 W60.
10 Pemstwowy loadtat Planowania Rady VAnistrow ZSRR3 Mookwas
f
~PHASE I BOOK EXPLOITATION SOV/5009
L
Bokshitskly, Ya. Mpand M. M. Filippycheva
Sposoby snizheniya vesa prib)Alnoy chasti slitka (Methoda of Reducing the Weighz
of Ingot Risei.'s)4oscow [V33ITII., 1959. 44 p. Errata slip inserted. 4,000
copies printed.
Sponsoring Agency: Gosudarsi;vennyy nauchno-tekhnicheskiy komitet Soveta
Ministrov SSSR, Akademiya nauk SSSR, and Vsesoyuznyy institut nauchnyy i
tekhnicheskoy informatsi.
Tech. Ed.: G. A. Shevchenko
17ORPOSE: This booklet is intended for technical personnel of steelmaking plants.
COVERAGE: The booklet revieus various methods of heating ingot risers and ex-
plores possibilities of bringing the shrinkage cavity into the riser. Using
hot tops with refractory or exothermic lining and covering the riser surface
with a heat-insulating material or with exothermic compounds are discussed.
of reducing the weight of the ingot riser are compared,, and the
e a-r- Z: # r
Methods of Reducing the Weight, (Cont.) SOV15009
authors conclude that the cipplication of an exothermic lining to hot tops
produces the beat results. No personalities are mentioned. There axe 28
referencesi 15 Soviet, 10 English, 2 German, and 1 Czech.
TABLE OF CONTENTS:
introduction 3
Electric-Are Heating of Ingot Risers 4
Induction Heating of Risers 14
Heating of Risers.With Oxygas (Blowpipel 18
Rapid Method of Heating the Risers' 23
Using Exothermic Compounds For Covering the Surfafas of Risers 25
Using Heat-Insulating Materials For Covering the Surface of Risers
and Lining Hot Tops 28
Card 2/3
- --- -------- --
Methods of Reducing the Weight (Cont.) SOV15009
Effect of the Form and Size of the Riser on the Shrinkage Cavity
of the Ingot 34
Exothermic Hot Tops 36
Conclusion 43
Bibliography 44
AVAILABLE: Library of Congress (TN731OB63)
VK/dfk/os
Card 3/3 4/20/61
Competition iffi'~A great fares, Posh, del* 5 ne.2:5 7 159.
-(MIRA 22:3)
I.Zameatitell predsedatelya meetkoma Poltavekoy gorodskey posharnor
okhraxq.
(Poltava--socialist competition)
Controlling the supply of cooling water to compressor units* Shakht.
strois 4 nool2:23-24 D 16oo (MMA 13:12)
1. Stroitelletva, shakhty Novo-TSentrall wya,
(Compressors)
ANDONIYEV, V.L.; BAUH, V.A,; BAUMURTEN, H.K.; BAWIN, V.D.; BIRYUKOY, I.K.;
BIRYUKOV, S.H6; :BL43KM, Sol.; BOROVOT, G.A.: BULW, M.Z.; BUMOV,
N.A.; VIORTSOM, B.A.; VOVK, G.H.; VCHMAN, B.A.; VOMCHININ, A.P.;
GAiATIONOVO VODO,'kELud. tekhn. nauk; GEWIN, Te.H.; GILIDMIAT,
Ya.D.,.kand.- tekhm, nauk; GINZBURG, H,H., GUMOV. P.S.; GOIRS, N.G.;
GORBA01W, V..N,; GRZHIB. B.V.; GRIKTLOV, L.F., kand. a.-kh. nauk;
. . . I.Ta.; DOILOV, A.G.; DMITRITAV, I.G.; DHITRIYMO,
YU*D.; DOBROKHOTOV. D.Do; WBININ, L.G.; DUMMOV, H.D.; ZHOLM.
A.P.; ZINKAVIO, D*Ke; ZIM&W. Te.T.; ZDUSKOV, S.V,-, ZURIK, K,K.l
KAWOV, I.FS; KRYAW. S.N.; KMMMYN, N.M.; KOKUWSKIT, V.T.;
KOSHWO. T.P.; KOMINISTOT, D,V.; KOSTROV, I.N.; KOTLTARSKIY, D.K.;
KRIVSKIT, K,fe; KUZNNSOV, A*Ta.; IAGARIKOVi N.I.; LGALOV, V.G.-,
LIKUMW, V.P.; LOGOOT, Polo; MATSnVICH, XJF.; MILINICHWO,
Kola;, IWIGH, I.R.; MIMYWV,, A.V., Imnd. tekhn. nauk;
MUSIWA., ~.N.; RATANSON, A.V.; NIKITIN, H.V.; Ovw, I.S.;
OGULINIK, G.R.; OSIPOV, A.b.; OSM, N.A*; PZMOV, V.I.; PWMKIN,
'G.A., prof.; PIY&=VA, Y~.V.; BAFOPW, Ta.D.; R31HIZOV, N.P.;
ROZANOV, H.P., kand. b1ol. nauk; ROCIMGOV, A.G.; RUBINCHIK, A.M.;
RYBCMffSKIY, V.S.; SAMIKOV, A.T.; SERMSOV, V.A.; SIUMO, P.M.;
Sli1YAVSUYA, V.T.; SITAROVA. M-W.; SOSNOVIKOV. K.S.; STAVITSKIT,
Ye.A.; STOLYAROV, B.P. [deceased]; SUDzrLO7SKIY, A.O.-, STRTSOTA,
y
e Do, kond, teldan. nauk; FILIFPSK KIIALTURIN, A.D.;
TSISMSKIT, P.M.; CHWWASCV`~-M.1.- CIUMSHIff, A.A.; CHUSOVITIN,
N.A.; SMOPAL, A.O.; SH3KHMp P*Ae; SHIMMO, G.A.; SHCHMM,
LN.; MORL', nr.; UKOBSON, A Gol TAMOV9 P.A., AMMMILISKIY,
i0outinued on next card)
AWN1717, V.L.... (contiliaedy Card 2.
Ye.A. retsenzent". red.; AMMIN, A.N., r'etsenzent, red.: DAUM07,
Yu.-T.: retsenzeni,* red.; RARARA OV, V.A., retseuzent, red.;,, RATUM.'
P,D., re tsenzent, ,red BORODINO F.V., kand. teldm. rauk, reteenzent,
red.; VAMSKIYO'.I.I.: kand. tekhn.'nauk, retsen*zent, red.;
GRIGORIYEV Y.M., Imnd. tekhn. nauk, retzenient, red.; GUBIN, H.P.,
reteauzent: red.;' 'IXMYV, I.N., retse=Gnt. red.; TMOLOV, A.I.,
likmmann d . t enauk, retseuze~t, red.;' LkUIJLOV# Bel., retsenzent,
red'; KRITSKIY,'S,N,, doktor tekhn, nauk, retse'nzont, redo; LIM,
V.V.: retse'nzent, red.; LUXIM, V.V., retsenzent' red.; I;USKIN. Z.B.S
retelenzent, redo;, DQLTRIROSOV, A.Kho, retsenzent, red.; MINOLEYET,
D.H., retseuzent, redo; ME= 1, M.F., doktor telchn. nauk, retsenzent,
red.; CB OV, S.S.' rela-senzent' red.; PSMSIMI. P.N., retsenzent
red.; POLYAJCOV, L.H., reiteenzent, red.; RUMYAMS]ff, A.M., retsenzent,
red.i RYABORIKOV, To I., retsenzent, red.; STASWXOV, N.G., retse'n-
zent, red ; Sxmiii, F.F., reteenzel'O, red.* TAWOVSKIY, S.V.9
prof do~4or tekhn. nauk, retsenzent,'red.; TIZISLI, R.R., reteen-
sent, red YADdWr. Ye.M., retienzent, red.; SHNrLAKOT, M.N.,
retseuzen;l red.; IMMOV, Me, reteenzent, red.; ZHUK, S.1h.
[deceased]: akadem:Lk,'glavmy7 red.; RIJSSO. G.A., kand. teldm. nook,
red'; VILIHONOV# N6A,, red.; VOLKOY, L.N., red.; MUSHIN, MoMo, red.;
~aw, V.D., pirofi,, doktor tekhn. nauk, red.; KWTROV. II.N., red.;
LIXHACHIVI V.P., red.; MOVIDWO VoMe, kand, tekhn. nauk, red.;
HIMAYWY, A.Y., bind. tekhno nank, red.; FRZROV. G.D., red.; RAZIN,
K.71, red.; SCMOLffr. V.P., red.; YMNGIR, B.P., red.; rRZMM,
(Continued on next card)
ANDONlYff, V.L.... (continumd) Card 3.
Te.Y., red.; TSTFW'07, V.D. [deceased], red.; XOWLIUOT, P.M.,
tokhn. red.; GIMKIN, Ye.M., tekhn. red.; XACIMOVSKIY, N.V., told=.
red,
(Volga-Don; technical accaiint of the construction of the T.I. Ieniu
Volga-Don Navigation Canal, the TSimlyansk Wdroelectric Coeber,
and Irrigation systems] Volga-Don; tokhnicheskii otchet a atroitell-
Ave Volgo-Donskogo sudokhodnogo kawla imui V.I. letd-na, TSim-
lianskogo gidr6uzla I orositel'afth sooruzhonli, 1949-1952; V Piati
tomakh. Moskva, Goo. energ. izd-vo. Vol.l. [General stractuml
descriptions] Obahchee opisanie sooi-azhenii. Glar, red, S.TA, 22iuk-,
Red. tons. M M. Griallin. 1957. 319 P. Vole2e [Organization af con-
stmetion. 6cialized operation3 in hydraulic engineering] Ore
',lalizateiia stroitel1vtva. Spetsiallaye eidrote;dinicheekle rabot7.
(Contimed on next card)
AMNIYBV, Mi.... (conti=sa) Card 4.
Glav. red. S, IA. MWc. Red. tom I.H. Kostrov. 1958. 319 P.
(mm 11:9)
1. Rassis, (1923- U.S.S.R.) Ministerstvo elekbrostautsii. Byuxo
tekhuicheskogo otcheta o stroitelletve Tolgo-Dona. 2. Chlen-kor-
reopondent Alcademij nauk SSSR (for Akhutin). 3, Deystvitellnyy
chlen Akademii stroitelistva i arkhitektury SSSR (for Orishin,
Rasin).
(Volga Don Gaual-Hydraulic engineering)
Ny~
4"
MRGIZRW, Aj;.,MW=IS, Yonem, byvohiy doker, deputat parlamenta ot
Teda Gretsi7a); FIIJM Xristos prof. deputat parlaments, ot TedA
(Gretelya); Pi~~S, ~mftt~rios, dieputat parlamenta ot liberalluo-
demokr#ticIzepkqgo soyusa (Greteiya); ANOSTS, Xhuan; TAMLO, Pablo-,
BULIKE, Zhermen-,'NUIWIN,, Okander; SI DIBI zheleznodorozhnik;
YAGNUS, Dzbordz'h, S-D-[IkWmg, George S.D:)
A great'day of celebration and struggle for a better life and
for vorld peace. Vsem.jn.-of.dvizh-Lno.61.-io-l4 Je 16o.
(MM 13:6)
le Predetavitell avetriyokikh profsoyusov, savedtwushchiy otdalom
zavodskikb gazet (for Margikbes). 2. Ghlen Mentrallnogo komiteta
demokraticheekego profeoyuza zholezuodarozhnikov, Gretsiya, (for
Peneris). 3. Delegaty avtonomnogo Yedinogo prof teentra ob4.liy-
skikikh trudyashchikhoya (for Akoste, Tarilo), 4. Predeedatel,
41noy federatsii
profsoy,uza prodavtoov gazet Sant-Y i Natsion
prodavtBov gazet Chili for Akoster. 5. Sovetnik -c'biliyokov Hatiion&14-
noy federateii stroiteloy (for Tarlio). 6. Vitae-predsedatell
Meshnatsionallno&o proff;oyusa portovykb gruzchikov i skladskikb
rabochikh Tikhookeanskogo poberezhlya, SSbA (for Bul#ke). 7. Sekretarl
Vaeobahchogo ob"yedinaulva alzhirskikh trudyasbehikhoya, Hezhdunarodnaya
konf ederatsiya evobodny):h profsoyuzov (for NurediL', S. Ohlen/-Vxb~-i,
--Mjh0*sa.w ~,MiyWJ?rOya*hchikhsya Ckernor Afriki, avtou*omuyy
proftseutr (for SiDibie). 9. Chlen Kongresea profsoyasov Gany, avto-
nomnyy proftsentr (for 1bgaus.)
(Trade tmions)
Jet snoue for airplaue models. Ilryl.rod. 3 no-2:19-22 F '52-
(MIRA 8:8)
J:
nimmmff A.
Using hot-tube ignition in WLrplaw model engines. Kryl.rod. 3 no.8:
20-21 Ag 1529 (KUM 8: 8)
(Airplanes-Ingines-Nodels)
CHEM .91
i E..V
FlUfNCI
PHASE X TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 650 X
BOOK Call No.: AP647757
Author: FILIPPYCHEV, A. V.
Full Title: SMALL-CAPACITYPISTON ENGINES FOR FLYING MODELS. 2nd rev. ed.
Transliterated Title: Mikr,olitrazhnyye porshnevyye motory dlya
letayushchikh modeley. Izd. vtor., perer.
PUBLISHING DATA
.Originating Agency: None
Publishing House: State Publishing House for the Defense Industry
(0borongiz)
Date:~ 1954 No. pp.: 102 No. of copies: Not given
Editorial Staff: None
PURPOSE.AND EVALUATION: This book is intended for aviation modellers who
Iconstruct aircraft models and engines. This book gives a very good
idea of the Russian development in small capacity model aircraft
engines. Instructions and drawings for building two-engine models
are clear and comprehensible.
TEXT DATA
Coverage:, This book was written on the basis.of several years experience
at the Central Aircraft Model Laboratory in design construction and
operation of models. The author gives a detailed description of a
small capacity aircraft engine. He summarily describes and gives dia-
V3
Mikrolit.razhnyye porshnevyye motory dlya An 650 X
Ietayushchikh modeley. Izd..vtor., perer.
grams of 28 contemporary Russian model engines. He also gives
.specifications and drafts for the construction of 2 models, the
TsAML-50 and the "Shmell". He cites figures characteristic for
Russian development.of aircraft and engine modelling.
Table of Contents Pages
Ch. I Designation of,Engine Parts and Principles of
their Functioning 5-7
Ch. II Principles of the Engine? Performance and its
Characteristics 7-15
Ch. III Design of Engine Parts 16-30
Ch. IV Fuels and Lubricants 31-35
Ch. V Methods of Igniting the Mixture and the Layout of
the Ignition 36-J8.
Ch. VI Operation of Engines in,Model Aircraft 39- 9
Ch. VII Soviet Model Aircraft Engines 02
Ch.VIII Manufacture of Electric Ignitions go- 8
Ch. IX Manufacture of the Compression Ignition Engine
TsAML-50 89-93
Bibliography 94-
2/3
Mikrolitrazhnyye porshnevyye motory dlya
letayubhchikh modeley. Izd. vtor., perer.
Appe ndix Working drawings o1 the engines ToAML-50 and
"Shmell". and their characteristics
No. of References: 12 Russian, 1937-1953.
Facilities- None
AiD 650 - X
Pages
3/3
FILIPPYCHEV, G. F.
FILIPPYCHEN, G. F. -- "INVESTIGATIOU III THE FIELD or THE *115COSITY OF FIGMENT
SUSPEM I ONS. " 3 u r, lal Fro 52, 140MW ORDER or LzHin C~JCMI C0TrcHurL0Gj CAL jft-~T
it-irm D. 1. Mcnoetmv (DISSERTATIOU ron THE DEGREE OF CAN?.-jlDATE In TminICAL
sc I EfjcE)
SO: VLCI lEnNAYA ~105KVA, JANUARY-C)CCC14DEIT 1952
VOLI-EPSHT.E,YN, A.B.; KRICHKO, A.A.; FILIPPYCIEN G F
yl-benzene fracti.ona formed on tho synth3vis of Cu=ne To
using alk-
obtain solvents. Ilefteper,, i neftekhim. nc,.6:,;'I",-35 164. (1-fillk 17.9)
1. Institut goryuchikh Iskopayerqich Ali' 33SR i Gosudarstvermyy
isaledovatellskiy proyektnyy institut-II..
L 1878-6� EVrr(M)/EPF(C)/Z1VP(j)/r. RM
ACCESSION N8.#4 APS022510 Ult/0303/65/0001004/0022/0026
667.621.264
7
Filippychev, G4 F.; Phagin,~N..~P.
-- i ___ 11
fii~~f ormatioil by 4ater-soluble
TlTtE-. MecbanLam of dlkyd resins
SOURCE:,_Lakokr.asoc mat primenen ye, n6,
~TOPIC TAGS:-. resin- pentaerythrLtol, -aliphatic carboxyllc acid, phthalic-
.--anhydride
-;ABSTRACT:* An-itivestLgatL6n-is..madi.i.-of-- the mechanisiagavernIng the)mnversioh of
salts of nLtrogeneous bases and acid alkyd 'resins Lit the course of film format
n
at 110, 150, and 170C. The procesis is studied on's p~ntaphthalLc resir6of the
following ccepositLon-(moles): penitaerythrLtol 1, syntfi~tic fatty acids of the.
C10-C16 fraction 1, phthalic.-anhydrLde 1; it is. shoim to involve decomposition of
the salts of,nLtragenous bases with regeneration of carboxyl groups, which react
with the hydroxyl groups.of the resin, and the formation of amide bonds. TrL_
ethylamine and ammonia are most suitable for the neutralization. Water-aoluble
lalkyd reains can be cured with, water- soluble alkoxy-methylmelamines. The degree
of conversion into a three-dimensional structure depends on the type.of nitrogenous
Card 1/2
I Y/1 "FV IS-1.
SOV/133-58-ro-15/33
AUTHORS: Bokshitskiy, Ya.M., Yemyashev, A.V., Zubko, A.M. and
d" U1-P 9 7, R-1 ~ -et YAA. 4, ~, N g
TITLE: The Influence of 'Vacuum Melting. on the Quality of Steel
(vliyazLiye vakuumnoy vyplavki na kachestvo stali)
PERIODICAL: Stal', 1958, nx 6, pp 520 - 525 (USSR)-
ABSTRACT: An investigation of the influence of wacuum melting on
the quality of Kh2? and 18KhNVA steels is(bscribed. Vacuum
melting-, was carried out in a 12 kg furnace previously des-
cribed (Ref 5). The conditions of melting and heating of
liquid metal, teeming -temperature and the time of retention
in the final vacuo were the same for all melts. As a charge,
mild steel ingots smelted in the usual manner in a 30-kg high-
frequency furnace were used. T e pressures used were:"l mm.
and 1/10 of a metre, 5-8-- 10 ~ mm and 5- 1o-5 mm . The
results of chemical gas analysis and impact strength of steel
Kh2? smelted under normal pressure and in vacuo - Table 1. 0
The impact strength of forged and hardened-in-water from 900 C
metal from all heats was low. In order to find factors
determining the impact strength of Kh2? steel, a series of
vacuo heats using electrolytic materials were carried out.
The results obtained showed that apparently the main element
Cardl/4 determining -the impact strength is carbon. The influence of
SOV/133-58-6-15/33
.The Influenoe of Vacuum Melting on the Quality of Steel
the depth of vacuo on the composition of metal, the gas content
and the content of admixtures in steel is shown in Tables 2
and 3 and Figure 1, reEpectively. The influence of depth of
vacuo on the mechanical. properties of forged and thermally
treated Kh27 steel - Table 4; the dependence of impact strength
of the steel smelted in vacuo on the carbon content - Figure 2
and on the gas content - Figure 3. It is concluded that:
1) valcuum meltiq&CC B127 steel is accompanied by some changes
in its chemical composition due to the evaporation of such
elements as manganese ELr-.d silicon md due to reactions forming
gaseous products; 2) The 'change in chemical composition
depends on the depth ol' vacuo; 3) Valcuum melting gives
the following effects: a) the reaction between oxygen and
carbon is more efficient; the content of carbon(bcreases to
thousandths of parts of 1%; the reaction of sulphur with
oxygen is also more intensive; b) the content of gas in the
deoxidised metal decreCLses by a factor of 3~ c) it has no
influence on the structure of the metal. 4 On walcuum. melting
of steel Kh27 with its subsequent heat treatment, its impact
strength can be considerably increased (30-60 times); the
highest effect on the 4-mpact strength has the content of carbon;
QaX12/4
SOV/133-~38-6-15/33
The Influence of Vaeuum Melting on the Quality of Steel
when the latter is below 0.0176, the impact strength of steel,
reaches 15 - 18 kg/ 5) On valcuum meltirg from electro-
lytic materials, the technological properties of steel Kh2?
depend on the content of carbon and silicon.
Steel 18KhNVA was made from a steel (C 0.19-0.20%) smelted
from Sulinsk sponge iron. The experimental heats viere carried
out under normal pressure and a vacuo of 0.5 - 1 mm. and
1.10-4 mm. The composition of steel %: C 0.14-0.21;
Si 0.17-0.37; Mn 0 25-0-55; P, S