SCIENTIFIC ABSTRACT FILONENKO, N.G. - FILONOV, I.G.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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FILONENK04j
, & , inzh.
Using semiconductors for measuring the temperature of the surface
of cylinder dryers, Trudy LTITSBP noA162-168 161. (MIRA 16:9)
(Woodpulp-Drying)
L
FIIDNENKOp N.G., inzh.
Control of woodpulp bleaching bV the oxidation-reduction potential.
Trudy LTITSBP no.10s75-79 162. (KMk 160)
(Woodpulp) (Bleaching)
(Oxidation-reduction reaction)
IAVIWV, A.G., inzh.; FILONWO, N.V., iiizh.
Gonducting baring operotions with use of multi-bucket excavators
in winter conditions. Ugoll Ukr. 3 no.11:24-25 9 '59.
(MIRA 13:3)
(Donets Basin--Strip mining)
(Nxcavating maohiner7-Cold weather operations)
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State-Union-Central Scientific Research Laboratory of Abrasives and Polishing
(TeNtlash). (-1944-).
"Ooncerning (~xestion of Nature of Electro-Corundum.11 Non. 10-11, 1945-
Iz. Ak. Nauk. SSSR. Otdel. Tekh. Nauk.
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Omfewdod the voltSjC o( the furnave 4mvItlill Ikul%lir"
c-Rd. uP to 2qo of CmO within the rauge wo-mi v. (1)
200
(-Wilitfittll this fOgWAt;AM Of 6 AMC C0171111.111111 J*Z) coo
11111trovt4 tke fluality of the alunilus 1114-11 (the miltrut 4
alumina Increases from 90 to Wev), suit (3) Imilitates Or
coo
gn)wth of curundusit crystals (the sige increaw% frtan 0.2
toO.8mm.). The C&Oiu the bauxite reacti. with alumin goo
a
ifuring the Melting process to funn C&O.OAtO,. goo
AV. R. llqtjtt 2Aroo
I L A mITALLVAGICAL LITINATION1 CLAWKINTION
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Work%. JOW-1taill- h2ottitC 'AA% H%11
0 to itatu curimutons. vic, toitututinn %a, found tit 1w if -00
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FILONIM40, N. Ye.
"Interaction of the Binding with Corundum in Thermal F~rocessing of a Ceramic
Body, " Dokl. AN. Vol. 58, No. 3J, '1947-
Central A Sci. Res. Lab., Abrasives and Grinders,
W %P
00 A N A!~P M.MUL__ ....... PAID AMP. 4!W-V12LVL-
00 . 01110C11049 Ale 0,4410111"116 OWPVA
0* 'A .40
ft- - f
and'iiiWaire of Oe bindler on .00
POPW~s~ of amde W" am
DOWY Aisid. "N..
rtalrdt"I tl~e filter. too
/m:70-711U. It* bb*r imuf swe"Wgi tfm Dealy h,,,q
oil changed. The essiential role of unmessarlsed corundum In .0
00 A producing desirable mamb. ptoperidrs of the body is bring
recognized onset, anti mort.. Duta an the latter plicnouirma
we given by Filamenkii fit explo. on the reactions of elec. so*
team multun (grain site No. 40) with different glassy
.3 or toWly cryst. binders, fired to 1300' for 21) hars. After
flarling the bodies seem analyzed anti emand. microscopicAly.
a The results %howard improvement in inarch. propertit-s (ten -
I'le. emiprewvar. and ba-mling stmigW only when the coo
go enrichment Its AlAh took place In the otialten scitc, anti
when a glass was produced which was not inclissed to cryst.
This glass was of high viscosity, and the adhesion on the
surface of the aricautrocontridurn cmins was hictrawal me
without disturbance of We glass structure of the blinder. AIDS
The crymd. reuction prodtartat wets In the glass were spillel.
coardia-rite, ne-Plarlite. anal anorihite. W. End see
a- too
jksm.%!~~ AsETALLUIPIGOICAL LITERATOE CLASSIFKAT600 1E.L""7=--ZrzX
I 1 0
-T IF 111 am a of 0 1 It ft I a a 3 9 9
It U 11
44 06 6660 a see* *1111o oeo
16 ,so 1196
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PILONMO., N. YE.
UM0111111116try - kat"as" -
Chemistry - Lime, Aluminates of
PA 27/49T13
Fab -49
"Reza-Aluminate or-,,4ime in the Systom CaO A1203)
.N. Te. Filonenko, All-UrLion Soi Res Inat Abrasives
a,ad Grinders, Ichingrad) 4 pp
"Dok Ak Nauk sm" vol ixiv, No 4
Experimentally establishes the region of stability
for hexa-aluminate-of.lime in the dual system CaO'-
A1203,-thus supplementing high-aluminous part of the
system and making it.more accur%te. Submitted
9 Doe 48.
AM.P
--I* loss 0 00 0000 so so
0
So 4 ---- --- V
112"liall, A" 616110114"Is MCI#
C"'
*0 heirselledim of ills equillbrimn coiditleas is ~&Ivmimla .0 0
vie cwm *I C*0-AIA-SI0,. .14. H. Ft AXD 1. V. LAVROV.
00 a J. .1 Wita C". (11.8 a.k.). ) I0W-W(IM).-ToavoW lims, apparently, In the tettllj~ftl system and wpArAtr~ from th Ic -so
- method xmil of Form "00
00 difficult" of stalk preparing optically unh melt In the ICTM of graimi and platet with fil-, and ..
material. a cornhination method was cud which ciovisisted In I.M. Ca0-2AIj0s rnclt*, without decomposition, ill I".&I,
so holding the composition% for prokmW periods at a given tem- 10'. Bet wee ft Cal) - MIA and CaO - RAW, theft exiti a rutec.
so perature awl quenching. In "filion, the mcitioll points of tic with a melting point of IT.Ail .6 lo- and a el4mical rumptni.
cones of given compositions wen determined. (1) t)6V*rn of
**X tion of 101.5 * 1.0% AW. and 19.5 * 1,n-P C40, ('.')SY4jrm Use
a. C&G-AIA. Corutmiurn.CaO-AA40i.madCaO-2A"anst*W CaO-AIA)H80. The corundum ficki in thij *
040 crystalline phaw% in the high-alumina section of this system. w . yotern hordrg
0 Cmundum crystAllixes in the trisonal system and separatics from ith the fteki4o(CaO-IIAIO..anirchite.afuI mullite. Thrrrac- CS 9
the melt in the- P)rM of Isometric cryTtals which am a combination tion Ca0-(1AIP4 " corundum + Nuid procreds within the inter-
.3 of the thombabedron and bmA- pinscoid. Ca0-11MA crystal- vat MW to 18-111*C. for compo4itions situated aking the hinder.
00" liws In the hr%ArmaI%y*tem and octiarates from the melt In the iriccurvir between the fitkis Of conandum and CA041AIXh, The
form Of hCVAn9UIMT plate, which are it oornhination of basal phm- field of CaO-RAIA bordrr* with the lichl, of %jahilily nf "Iran o99
so I Ill - thun. anortMir. itchirnite. and The hOrdering go~
ALa.! cold and hipyramid (and ra"ely prism 1: a. - 1-759 and curves between the fields of corundum. CaO-t)Aho,, nd tv~- goo
ALAL
1.7.52, Ca0-flAW)s tnelv' Incongruently at IPjD* -b 10*C. tic.
composing into corundum and a liquid for all compositii * thitie COnWITIC In A AVC-POillt local having a mcking point of
Vas con-
taining Over M'r' AIA. A mixture of the composition CA0-- 1495' - 5* and a composition Of 4 1.0 0 V; At^. Ill 0
1 0 5131. SO and 23.0 a 1).50; Cao.
OAIA fum-4 on y upon reaching 19101- r_a0-2AI,0& crystal-
J
I ties
'11140 00-LAV
137 0; 1- 14101110
AM 1 5 1 nil 0 a I I IF 61 2 a a 3 9 T
t1t d"
U Al MIj
0 1 0
s0 4 110fee 0 s- 000 00000 0 a 0 0 0 0 0 0 0 0 0 0 0
We 0.0' 0 0
N. E.
the sys m CaO- 0, SiO.. N. 17.
te At
141 M D PaHady Akad. Xauk S~r
AUD I j~~ 11
673_qo 1; ~N icro.
41"G7F!qrO 1 4 .-N. icroscoltic studk of wpidly chillcd
T
samples of the high-alumina patt of hc_jx5tejtL:C_if~
Si()~ rcvc;sls the existence of corundum, CuO-BAW, mul
CtO-M_-O~. The CnO - OAIIO~ crystallizes in t lie he-cugonal sys-
tem and t~Lparalts from the melt in hexagonal plates which com.
prisw it colithination of basal Pinacuid furins with a Upyrumid iind
rarely with u prism; no - 1.7,51) and ne - 1.752. The pointat
which [lie cortindum, CuO,OAIIO,, und anorthite exist in cquilib-
rium with the liquid and vapor hwi the composition Al.-O, 4 1.0
0.5'7,, SA-36.0 * 0-5"X,,,l,ldCA023-(J * (1.511*~; (lie 11101(ingpoint
isl,19.5-69. The fichlo(OLO-OA1,0sborderson the fividsufsta.
bility of corundurn. anorthite, gelilenite. unit CuO-2.kh0i. 'rite
CaO - GAIX)a mcits with decomposition Intip corunduin and liquid.
The reaction CuO. 6AIA r-I crinutclum + turit takes place Lit it
at I W to IMA'C.
definite concentration within the hitcrv. 5(
It 7-K.
u*-RAngineering Refractories, Struc- Mar 52
ture
"Examination of Electric Corundum in'Ref lected
Light," N. Ye. Filonenko, Dr Tech Sci, L. A.'
Borovkova, Sci Res Inst of Abrasives and Grinding
"Ogneupory" No 3, pp 124-133
Microscop# - study permitted establishing: min-
eralogical compn of corundum and characteristic
appearance of opaque minerals and 'alloys-, such as
titanium sesquioxide, titaniferous mi~erail crystg
in rhombic system, titanium nitride and ferroaLl-
loys with various content of metallic titanium;
microbardness of corundum components,
204T25~
!USSR/Engineering Refractories, Structure Mar 52
(Contd)
transformation of gray, titaniferous mineral at 5000
accompanied by considerable vol expansion which
causes formation of crack network on surface of
corundum refractories. Presents 6everal photo-
micrographs.
204T25
=R/Snginee-ring - Refractories, Corun- Oct :52
__4 dum
C"
"Concerning the Anomalous Expansion of Electrical
Corundum," N. Ye. Filonenko, Dr Tech Sci, 0. S.
Kuraketsova, All-Union Sci Res Inst, of Abrasives
and Grinding
"Ogmeupory" No 10, pp 470-474
Stu&ies process of oxidation of titanium containing
-A rals and alloys vithin composition of electri-
cal c6rundum. Establishes that cutldat~ion at.
kw-6000 C of Ti-containing ferroalloys is main
USSR/Chemistry- Titaniun CoW.Wulz ~21 Sep 52
Abrasives
"Oxides of Titanium in the Interval T102 - Ti-203)"
N. Ye. Filonenko, V. 1. Kuftyavtsev and I. V. lAvrov,
All-Union Sci Res Inst of Abrasives and Pol~shing
DAN SSSR, Val 86, No 3, PP 561-564
The,existence of two cr3tat phases having the compn
Ti2O3'T:LO2(T:L305) and T1203-34T02 in the interval
TiO~ - Ti2O3 was clarified. Increasing the amt of
Tj3 in the latter of the two phases changes the
color in reflected light from light gray to bluish
24'r-rio
gray. The optical properties of this new modifica-
tion of titamium dioxide are significantly different
from those of the known form. Presented "Aby Ac&d
D. S. Pel,,mmkin 20 Jul 52
247TIO
FILONM09 N. YE..t and BOROVKOVAq L. A.
tqnvestigation of the Phase Composition of Recovered Materials in the
Production Of Calcium Carbide.," Abrazivy, No 9, 3-8, 1953
To carry out an investigationq the authors work out a method of
preparing polishing mud from recovered materialE. and a procedure for
mineralogical analysis on preliminarily synthesized specimens of calcium
carbide. They establish the nature of the w1mixtures in calcium carbide*
RZhGeol) No 1, 1955
USSR / Morphology of Crystals. Crystallization. E-7
Abs Jour : Ref Zhur - Fizika, No 4, 1957, No 9385
Author : Filonenko, N.Ye., Alferov, V.A.
Title :-izif-l-u-e-n-c-e-o-r-M-p~rities on the Crystallization of Silicon
Carbide.
Orig Pub : Abrazeviy, 1955, No 13# 3-20
Abstract : An investigation was made of the influence of impurities of
Fe203 and Ca. The initial mterials were quartz sand and
petroleum coke. Heat treatment was carried at 1650 -- 22000
with soaking for 5 -- 6 hours. The specimens obtained were
subjected to microscopic and chemical. analysis. The follo-
wing was established:c(l) Impurities in the charge have favo-
rable or adverse effects essentially not at high temperatu-
res (-.;1-2000P) at the end of the process of the carbide for-
mation, and at temperatures below laOOP their effect is felt
at the beginning of the process. (2) Impurities that do not
form compoundt3 with silica (for example iron) are not harm-
Card 1/2
USSR / Morphology of Crystals. Crystallization. E-7
Abs Jour :Ref Zhur.- Fizika, No 4, 1957, No 9385
Abstract :ful and may serve as catalysts. (3) Impurities that inter-
act with S102 upon production of SiC(CaO) effect adversely
the formation of SiC, the most harmful impurities being A12
03 and CaO; if they are jointly present, there is formed in
the SiO2 a eutectic with a melting temperature of 11700.
(4) A1203 amounting to 3% prevents carbide formation; a eu-
tectic is formed with a melting temperature of 15950; at a
temperature above 17500 there is formed A103 and SiC of the
third modification (more valuable for electro-technical pur-
puses than for abrasives)- (5) The presence of free CaO in
the charge reduces the yield of SiC (at 1-5% CaO in the char-
ge, the silicon content is reduced by 17%, and at 3% CaO it
is reduced by 45%).
Card 2/2
xj
T
USM/Chemi c1le,
Techno ogy Chemical Products and Their Application. Silicates.
Glass. Ceramics. Binders, 1-9
Abst Journal: Referat Zhur - Ehimiya.. No 19, 1956, 62341
Author: Filonenko, N. Ye.
Institution: None
Title: On the Problem of Microscopic Analysis of Abrasive Grain of Standard
Synthetic Corundum in Reflected Light
Original
Periodical: Abrazivy, 1956., WO 15, 35-38
Abstract: For technological control of the quality of produced electro-
corundum and determination of the quality of abrasive grain of
electro-corund-um it is recommended to put in practice at plant
laboratories a microscopic analysis in reflected light. The follow-
ing classification is proposed for abrasive grain according to its
structures monocrystals, dense aggregate and aggregates. The mono-
crystals include corundum crystals and their fragments and also in-
dividual corundum crystals with enclosed therein inclusions of
Card 1/2
'USSR/Chemical Techric~logy - Chemical Products and Their Application. Silicates.
Glass. Ceramics. Binders., 1_9
Abst Journal: Referat Zhur - Ehimiya.. No 19, 1956., 62341
Abstract: glass and other phases; dense aggregates include grains consisting
of several corundum crystals closely adjoining each other or con-
taining apparent thin interlayers of glass or other phases; ag-
gregates include graims consisting of several corundum crystals
held together by glass interlayers containing inclusions of other
minerals.
Card 2/2
YL.
20-3-45/59
AUTHCRS: Filonenkoj N.1eo) Lavrovj, I* Vs., Andreyeva,, a. V., Pevzner, R.' !I.
TITLE'. Note on Alumina Spinel AlO.A1203 (0 glinozemistoy shpineli
AlO.Al 20 3)'
PERIODICAL'. Doklady Akademii Nauk, 1957, Vol. 325, Nr 3, pp. 583-585 (USSR).
ABSTRACT'. On the occasion of the microscopic investigation of the reduction
products of the components of a layer with a high content of alumina
the authors found a corundum resorption with the formation of a
vitreous isotrops phase, if the reduction was effected by solid carbon
(for the production of electro-corundum) (Light diffraction in some
granules 1,77-1,8o). This phase displays a lattice, the parameter of
which is close to that of alumina, but differs from it by its higher
diffraction (higher than corundum). This phase is produced as a result
from the solution of corundum and is consistent at 19oooC. These facts
justify-the assumption, that the interaction of corundum with carbon
follows the reaction. 3 A a 2 For control purposes
1203 + C A]'304 + c0'
a synthesis was accomplished, Samples synthetia-ized at 1,5oooc wexe
blackj, at :16oooC and above they were white and contained no corundum.,
Card 113 but consisted almost entirely of the isotrope phase. At 16ooOC it is
Note on Abmina Spinel AlO.Al 20 3* 20-3-45/59
formed by isometrical. granules about 2-4pin size. In addition to
that, it contains: aggregates of kcrolithes. with a high light diffrac-
tion and double refraction. At 17000C there appeared, besides isometri-
cal. granules of the isotrope phase, recristallized parts, 6_1o)%An
size, of the phase withiirregul-ar form with numerous gas inclusions
At 175ooC this layer is sintered into a uniform mass with many gas
bubbles. No crys-tals are visible. At 18ooOC the structure changes
instantaneously. The sample consists of isometrical crystals of the
isotrope phase 6o-loo_& in size. In -between a small amount of very fine
foils of an unknown phase were found. The chemical.analysis brought
out for samples produced at l6ooOC.'_Al,0_l,26Al203, at IL7ooOC:
A10.1.21. A1203 and at 175o"M. -"1~06 A120 3 . X-ray analysis showed
the composition to consist of a single phase (sample at l6ooOC)j, its
lattice parameter a - 7,921. The spectral analysis showed very clearlyj
that aluminium. is represented only by the brightest lines Al 3082p16
and the doublet Al 3092,7, Al, 3092,8 in the)r - spectra ofalumina and
corundum. These lines are much more intensii7e in the spinel spectrum
than in the case of alumina and corundum, and there occur 6 other lines.,
which are characteristic for reduced aluminium. All these facts can be
Card 2/3 explained, apparently, by a weaker combination between Aland 0 in the
Note on Alumina Spinel. AIO.A'203~ 20-3-451'59-
spinel than in ther fi. alumina and in the corundum. Hence, a spinel
of the given composition ww synihaifta - ~byli, the interaction of
alumina with solid carbon in the ran e from 16ooTBooOC, displaying
a very- high melting point (1900-L9904), a high mirobardness
(H a 207o kg/imms) and good chemicaL resistivity.
There are 4 figures (in one table).
ASSOCIATION All-Union Scientific Research Institute for Abrasives and Grinding
(VassoyuzW-nauchno.issladovateL'skiy institut abrazivov i
shlifovaniya).
RIMENTED: B3r b. S. Korzhinakiy,AWemieian*, Nurch 12, 1957.
SUBMITTM: ltarch--#~ 129 1-957.
AVAILABLE; Librarjr of Congress.
Card 313
PHASE I BOOK EXPLOITATION
6010
Filonenko Nina Yevgenlyevna and Lavrov, Igor' Veniaminovich
Petrografiya iskusstevennykh abrazivov (Petrography of Synthetic
Abrasives) Moscow, Mashgiz., 1958, 90 p. 2,000 copies printed,
Reviewer: Karlin, V.V., Candidate of Technical Sciences; Ed.:
Nikogosyan, Kh, S., Candidate of Technical Sciences; Ed. of
Publishing House: Borodulina, I.A.; Tech. Ed.: Sokolova, L.V.;
Managing Ed. for-literature on machine-building technology
(Mashgiz, Leningrad Division): Naumov, Ye. P., Engineer.
PURPOSE: This book is intended f6r engineers, technicians, and
scientific personnel who;~e work is concerned with the production
of abrasives, refractories, electrical equipment, and cutting
tools.,
COVERAGE: The book deals with the phase composition and structure of
abrasive materials and cutting tools and with the physical and
chemical basis of their production. The materials described are:
Card 1/5
Petrography of Synthetic Abrasives
600
common and white electrocorundum, monocorundum, silicon carbide,
and boron carbide. The authors have attempted to gather together
into one small volume information which hitherto has been avail-
able only in scattered magazine articles. There are 77 ref~ei6nces..
of which 57 are Soviet, 10 English, 9 German, and 1 French. No
personalities are mentioned.
TABLE OF
CONTENTS:
Preface
3
Ch. I. General Information on Abrasives .5
le Natural and synthetic abrasive materials
2. The abrasive tool and its characteristics
3. The role of microscopic investigations in the pro-
duction of abrasives 8
Ch. II. Common Electrocorundum 9
4* Physical and chemical basis of the production process 9
5. Structure of a block of common electrocorundum 13
6. Mineralogical and chemical composition of electro-
corundum in varipUB parts of the block 13
7. Characteristics and certain properties of minerals
gompaiking c-an electrocorundum 17
F~_trography of Synthetic Abrasives 6,00
8. The grain of common electrocorundiun and changes in it
during the calcining process 27
Ch. III. White Electrocormidum 30
9. Methods of preparing white electrocorundum 30
10. Structure and mineralogical composition of a block of
white electrocorundum 31
11. Petrographic characteristics of the product as pro-
duced by the continuous-casting method 35
12. Minerals of which white electrocorundum 13 compo3ed 37
Ch. IV. Monocorundum [Electrocorundum Made from Bauxite by
the Oxy3ulfide Method] 39
13. Basic steps and theoretical principles of the produc-
tion process 39
14. Chracteristic features and properties of phases en-
countered in the grain of monocorundum 42
Card 3,6
Petrography of Synthetic Abrasives 600
15. Distinguishing features of impurities in monocorundum
in reflected light 46
Ch. V. Silicon Carbide (Carborundum) 48
16, Green and black silicon carbide. Syn thesis. Products
of synthesis 48
17. Phase composition of the products of synthesis 52
18. Minerals making up the substance 55
.19. I~ffect of impurities on the formation and crystalli-
zation of SiC 58
Ch. VI. Boron Carbide 62
20. General information on production and application 62
21. Boron carbide and its distinguishing features in
direct and reflected light 63
Ch. VII. Mineral Formation in the Process of Firing Abrasive
Tools 65
22. Structure of the body of the abrasive tool 65
23. Physical and chemical processes taking place during
the firing of abrasive tools with a ceramic binder 67
24. Mineral composition of ceramic binders 71
Card 4/5
Petrography of Synthetic Abrasives
69Q
Ch. V111. Microscopic Analybis of Abrasives 77
25. Analysis of sections of abrasive materials 77
26. Analysis of mineralogical composition of grains of
elec trocorundum. 8o
27. Microscopic analysis of abrasive powders 84
28. Microscopic analysis of the body of abrasive tools 84
Bibliography
AVAILABLE: Library of Congress
GO/1 sb
29 August 1958
87
Card 5/5
I A A / 1, /1 , ~
IV
'Vil 'I
,.hurnal, YhJrAya, 59, 141' 15, P Y (USSR)
.'n 11,lectroevrun(lun
A j
no tc-aii. nincrc,lc6-li i petrogr.,
I"uJ'.',:, !-re cite(.. of rm Investigation w.nich -jerilitted to dletcct several
CCi,.,~kjunclu 1xi electrocorundut.,. and to determine the ccnO,!,;lonr,
tl!cir forti-.ttun in the proceQ, of rimolting and oool-ln- of the ;J.Vi-;.T1J-l
i.clt. tn "Llv:;t tItmItir; tainoml:; r.:)j-jcarinL; !.it the pi-occos ef clectru-
are titwilm,,, ct~rb-.Cc md. nitride. t.;c fori-,lation of
t!'~',07J :)~rCC L',Izrings- the heating -.ncl sintering of Cic char -e on tix
Dirnace cliar,-c h(,,.'.(, -J.t o the
Tlt-mil.,;.l errbWe is formed a:3 a rc;~az f
rcr-ct:ion in the solid phase bet-.:ccn titomium dlcxi(~c and ~)Prticlcs of
of -:.'to chai,L,I-c. TItmitm nitri(lc ir, formc(_' as a i
-esult
of the J)r!t-Tccn titmiuil rxid P.Jr nitrogen. Ectuh rc-
rcccc(; ri npprcc;.al)._.'.c iA a teriperature above 1.5,COC.
C
--Ttr.Tl,*um crvb.I.f!n rxid nitriCc is noted, in the upper parts
n
of t! tC ',10C' t2 to,) allf_' Vn(~,.crto:,. Tn the C.::a-!.-1y colored. blue anc! bro,.!n varietiez;
m- Aop. at -the jo'n'-~-. -:"h co
0 f V.m I- ''c .0. 6 . .. ~11 ivn(bxi cv,~,Pltaln, Tj,05 crystals were detectec;
-Po 1'.% 0 of t1hc tit-n..-,-,., r;c:3(ju!Ox.1de. Tn the banic ccntr..~.!
C-,, OV t'le W-cf.". .::1.1C'h (iuly reduce'll CMkL SIC-,-;].j c1.y-,;t-UUzc(,
-_,2e:-,ent fm the All- it Is noted Viat titanium sesquio.~Irle
Of
:1o;-`, zt-,~,ble -2*.t rctr~inc('. -w*.n the i.ic't rnll clurt-Alizes out of it Rt
f.Lio-cry~A, 1.1ine of t`ie bloc'; a blac'.
of
been ('.ctectc6l. -Ailch 1::; ._:imilar in coriposition to the ve-sidual
i_el t ,_n,~ to T.~,- or Ti,-v 'Zhe results ef t;ie In-
vc~,;ti~,f'ti "arl":11te(I to Viis mineral -.5 a variety of the mosovite :.dneral of
Cn the b,-.,;iz of the obtr.'.!e~' 6,ata, 11.7. Golub%ov hro -proposed a
for Vic cl,~,etrocurun.-7i, !bloc'- .:,-Jch reduces several timed;
~110ce(,Urc
t"e VICr:%r~1 cxterv-duml (;f t:ic alectrocorumu,i rnC. (lecreaser, correz,?on(An1(-,'.y the
ci.!,-..unt -.f' _~c,:ectcr'. -.,ror'.uct.,; -_-hicii are ca~i,;eO. by this phenoulenon.
G.
50 t2)
AUTHORS: Fil ankal-NZ4~-,j Lavrov, I. V., SOV/20-124-1-44/69
Andreyeva, S. V.
TITLE: On the Aluminum Oxycarbides (0b oksikarbidakh alyuminiya)
PERIODICALt Doklady Akademii nauk SSSR, 1959, Vol 124, Hr 1, Pp 155-158
,(USSR)
ABSTRACT: The solid production by synthesis of the subutanoes mentioned
in the title by an immediate interaction of alumina with carbon
is of interest for the industry using corundum material
(refractory or grinding material). The authors carried'out the
synthesis in order to investigate those problems and also to
determine the optical properties of the Al-oxycarbides. Batches
were produced basing upon the process of the following reactions:
(1) W 0 + C 2A1 0 + CO (C-content 4%);
2
3 3 4
(2) 2AI 0 + 3C Al 0 0 + M (C-content 15%);
2 3 4 4
W A120 3 + 3C Al 20C + 2CO (C-content 26%)
The components weret bighly disperse (2 - Ota),r-alumina and
Card 1/3 mineral oil coke (grains 50-0,")-
On the Aluminum Oxyoarbides SOV12(~-l 214 - 1 -44/69
The briquets produced from them were subjected to a heat
treatment in the "Tamman" furnace at 1500-19000 for up to
3.5 hours. The loss of'weight suffered during the reaction was
recorded (Fig 1). A microscopic analysis according to the
immersion method was then carried out in polished sections
(Pigs 20) and a chemical analysis in some cases. Properties of
the determined aluminum tetra and monoxycarbide are described.
The comparison of the results of chemical and microscopic
analysis as well as the loss in weight of briquets prove that
spinel is the first product of interaction of alumina with solid
carbon; this being independent of the carbon content in the
batch. The composition of the final products corresponds to the
reactions (1), (2) and (3). Thus, it was proved that Al4 04C and
Al2OC can be synthesized not only from the liquid phase by
crystallization of the Al203-Al4C3 melts (Ref 1) but also-in
the solid phase between 1700 and 18500 from alumirA and carbon.
Card 2/3
On the Aluminum Oxycarbides SOV/20-124-1-44/69
There are 3 figureaq I table, and 2 Soviet references.
4SSOCIATIONt Vseaoyumnyy nauchno-issledovatel'skiy inatitut abrazivov i
shlifovaniya
(All-Union., Scientific Research Institute of Abrasives and
Grinding)
PRESENTED: July 23, 1958, by D. S. Korzhinskiy, Academician
SUBMITTED: July 29, 1958
Card 3/3
,~~-yii,O!IMTKO, II.Ye. -, LAVROV, I.V.
Microstructure of electrocorundum. Ogneupory 25 n0-8:359-362 160.
(MIRA 13:9)
1. Vsesayuzny7 nauchno-iseledovateliskiv inatitut abrazivov i shlifo-
vaniya.
(Coxitmdum)'
ZARETSKAYA, G.M. (Leningrad); MEL'NICHEKOF A.A. (Leningrad); FILONENKO,
N.Ye. (Leningrad)
Investigating Pilicon carbide formed during the smelting
of iron-siliccn-chromium alloys. Izv. AN SSSR. Met. i gor.
delo no.4:58-62 JI-Ag 164. (MIRA 17:9)
FUDBENKO.A.-N.; ZARETSKAYA, G.M.
Silicon carbide and forrosilicochrome. Zhur. prikl. khim. 38 no.4i
941-942 Ap 165. (MIFA 1816)
1. Vaesoyuznn nauohno-iseledovatellskiy institut abrazivov i
shlifovaniya.
FITONENKO. N.Ye.; IVANOV, V.I.; FELIDGUN, L.I.
--- ------
Morphology of cubic oa- R 164
no.6:1286-,1287 0 165. yj-,tals cf' boron ndtild-1-1. D,,k!- LN 31's (MIRA 18&10)
U
1. Vsesoyuznyy nauchno-I.Psleduva-te.'-tf;',Iy Instilut abrralvov i
slilifovaniya. Submitted Jt,,Iy 17, 1965.
L 34368-66 FNP'(e)./EYT(m)/T/-F,-,,-P(t)/FTI TJP(C) JT'
ACC NRi
AP5027228
SOURCE CODEs
UjV0U20/6,c/'164/b06/1286/1287
AUTHOR: FilonenJw,_N* Ye.; Ivanov, V. I.; Fel#dguno L. I.
IL
ORG: A14 -Research Institute or Abrasives and Foliabing (Yee '
._.Nktqn Scientific aoyuznyy
nauchno-iseledovatellakiy inatitut abraxivov i sh1ifovaniY&-)"-'---------
TITLEs Morphology of cubic boron nitride crystals
SOURCE: AYSSSR. Doklady,, v. 3.64,, no. 6. 1965# 1286-1287
TOPIC TAGS: boron compound,, cubic crystal , crystal structure, boron nitride comround,
x ray diffraction analysis, crystal symmetry, twinning .,.-I
ABSTRAC4,R Wentorf (Jo Chem. Phys*p 34) 1j, 1961) reported that the cubic boron
nitridd _c~ hes synthesized and which had the hardness of diamond was crystalifzc~d iiL
the form of tetrahedrons and octahedrons. Later,, Fe P. Bundy and R. H. Wentorf
(J. Chem. Phys., 38, 5, 1963) showed, on the basis of X-ray diffraction studies, that
cubic boron nitride had the structure of sphalerite. This discrepancy promoted tho
recent study. The crystalsp sufficiently larges (0.3-0.6 mm) for crystaLLo graphic
studies an m -i
,, were grown during work on the synthesis of nitride. The subsequ t e, suring
of->100 crystals proved that cubic boron nitride has a hexatetrahedra.1 type of symmetv
(43m) - The combinat4n of positive tln~ and negative J1111 tetrahedrons is the main
_Sgstallo graphic fqmW its crystals* The most predominant were octahedral-, bap-,d
cry;-t~s ilt-h-c-ER-c-teristic apexes in the form of a double sloping roof formed by the
I ACC NRt
combination of two faces of hexagonal and two faces of triangular form and belonging
to the positive and negative tetrahedrons, respectively. The polysynthetic and simple
twins were detected in polished thin sections. They consisted of plate-like aggregates
intergrown at va:,:-ious angles. The thickness of individuals forming polysynthetic twins
varied from a fraction of ay- to Eeveral hundred " . As a rule.. the polysynthetic twins
contained numerous inclusions captured during crystallization. The microhardness of
cubic boron nitride varied within the range of 7300 - 10j,000 kg/Mm2j, with 8500-8600
kg,/mm2 being the most co n. A study in reflected light under a metallographio micro-
scope detected on the surface cf tetrahedral faces the vicinal faces and vicinalcids,
the layers and spirals of growth, the steps from several layers of growth., the in--
clusions of mnall crystals and twi-,-s of cubic boron nitride, and the inclusions of
impurities. The paper was presefited by Academician No V. Belov 17 Aug. 65. The authors
thank Vo P. Butuzova, for interest in their work and discussion of results* Orig, arte
hass-4 fig* I . . . -
SUB CODE: 20,0~UBM DATES l5Jul65/ OTH RUt 002
Card . 2/2
MIT EL WN m. f OrOv A P Cf. M, ; VE REZ, UP, P i G. ; VOIC', H j to! ~,Y),tVA-Y 114, a
STPLIO F 11 1 ~E TZ. G F I L 0 N F f -i K 0 p 0 . F) 1 ~ 0,N 0 M A q P " N K C'~ ~ M.
Furt~her study of a new E,diorlwd sol-ablo purtus6-.lr,_dl.phtherJ._.]..
tatantis va--cine. Zlvir.mlkroblol., opi.d. 4, 3mm-n. I-
40-44 V 165. 1991)
1. Kharikovsk.ly institut mikrnblologil, vaktsin I syvc-otok
iment Mnhnikova,
DOROKHOV, Aleksandr Petrovich; KOROBVINA, Galina PItepanovna;
bTARODUBTSEV, Viktor Aleksandrovich; TSAM- KO, Vladimir e i,.
Timofeyevich; VOLKOV, A.A., retsenzent; OGORODIIEYCHUK,
I.F.) retsenzent; MEMO, V.S., retsenzent; TETELIBAUN,
Ya,I,O ratiqenzent; FILONIZIKO, S.N.j dots., otv. red.;
NESTMENKO, A.S.; -ned.
[Principles of industrial electronics] Osnovy promyshlemoi
elektroniki. [By] A.P.Dorokhov i dr. Khartkov, Izd-vo
KharIkovskogo univ., 1964. 214 p. (MIRA 17.8)
FILM-LIAO-, S. N. pa 7OT21
PILONIM, Serafim Nikonovich; XDSTYU V,,Yiktor Alelcoandr6ifeli RObIff,
r UtronoVColf: GUSIKOV, -Boris Sergeyevich;- KAWGREM, A.G.,
inkhOner, red aktor; SIRDWI, V.X:.,'ihfhbter; -FddaXflfff,RUI4MIT,
Te.V.;-tskhIjchaikIY rodaktor.
(Concise manual for tool operators at machine-tractor station.21
Kratkilf spravochnik stanochniks NTS. Kiev, Gos.nauchno-takka -L4M-
vo mashimostrait. lit-ry, 1955 19 P. (MA 9:0)
(Machine-tractor stations) (MaZork)
SIMINSKIT, Vitaliy Kuprianovich; YIIONR 0 S.N., kandidat tekhnichesk-1kh
nall , doteent, retsenzent., 3M=rfAfflz, A.A., inzhener, redaktor;
SOROXA, M.S., redaktor; RUDMKIT, TA.Y., tekhnichookly redaktor.
[Way* of reducing auxiliary time in high-speed cutting of metals;
from vork practice of the author] Pati sokraohcheniia voposegatell-
nogo vremeni pri skorostnom resanii metallov; iz opyta raboty
aytora. Kiev, Gon.nauchno-takhn. isd-vo machinoatroit. lit-ry, 1956.
70 P. (Metal cutting) (PTRA 9:6)
~- Yli"IM0, S.M.; GONCE", YU.N.
Simple seasarement of the tangential component of the cutting force.
Stan. i Instr. 31 noeq:37 3 1609 (NIRA 13:9)
(Natal tutting)
VALITOV.,, Rafkat Amirkhanovich, prof,; TARASOV, Vladislav Lukiobj SHISHMp
Leonid Adrianovich; TSARENKOf Viktor Timofeyevich; F
Sergey Nikonovich; DCIKANOVAP Yelena Alekseyevna; j3awwl*,ko-u7
ArIbErIm"d J SYTYYp Genuadiy Fedorovichf h~MIWVAv T.M.S red.;
TROFIMENKOr A.S.g tekhn. red..
[Meast=ement of transistor parameters] Izmereniia. parametrov pot-
luprovadnikovykh triodov. KharIkovq Izd-vo KharlkovAqogo Goo.
univ. im. A.M.Gorlkogo 1960. 193 P* (KMA 14:8)
ITransistors)
GUIKO. Mikhail Nikhaylovich;, YMNJNI~~,. 3.N., doteent, kand. takhn.neuko
SOROKA, M.S.. red. ----
(Notals and materials; reference tables] Ketally i materialy;
spravochnyo tablitay. Xoskya. Gos.nauchno-tekhn.izd-vo mashino-
stroib.lit-ry, 1960. 241 -p. (MIRA 13:6)
(Metals) (Naterials)
FILONENKO, S.N*; GOWHAR, Yu.N,
Force ratio in machining caprou parts, Nauchozap.0d.politekh.inst.
26%73-75 '60. (MM 15:5)
(Plastics machining)
FILONSNKOP S.~N.; GONCHAR, Yu.N.
- ,
Relationship between the tangential cutting force and the diameter
of machining, Stansi instre 33 no.7-.30-31 Jl 162. (KM 15-0)
(Metal cutting)
FILONENKO Serafim Nikolgyevich; AFANASIYEV, V.F., kand. takhn.
nauk, retsenzent; BARAB-TARLE, M.Ye., inzh., red.;
PILIPENKO, Yu.P., insh., red.; GORNOSTAYPOLISKAYA, M.S.,
tekhn. red.
[Metal cutVng] Rezanie metallov. Moskva, Mashgiz, 1963.
209 p. (MIRA 16:7)
(Metal cutting)
FIIDIqENKO, S.N.; LOMIKIN., V.K.
. Dimensional wear of cutting tools in fine boring. Stan. i
instr, 34 no,6:33-34 Je 163. (MIRA 16:7)
(Prilling and boring)
FILONENKOJ, S.N.; LOMAKIN, V.K.
Dimensional wear of cutting tools in diamond boring of steel. Stan.i
instr. 35 no.9:29-30 S 164. (MIRA 17xIO)
VALITOV9 Rafkat Amirkhanovich,,prof.; TARASOV, Vladialtv Lukich;
SHISHKIN, Leonid Adrianovich; TSARENKO, Viktor
Timofeyevich; Fi NENKQ-, Serggy-Hik!2novich DOMANOVA, Yelena
Alekseyevna; BARKANOV, Nikolay Arsentlyevich; SYTYY, Gennadly
Fedorovich; KURILOVA, T.M., red.; TROFIMENKO, A.S., tekhn.
red.
(Measurement of transistor parameters] Izmereniia paramet-
rov poluprovodnikovykh triodov. Pod red. R.A.Valitova. Kharl-
kov, lzd-vo Khartkovskogo univ., 1960. 193 p. (MIRA 160)
(Transistors)
VALITOV, Rafkat AmIrkhanovich, pn)f.; TARASOV, Vladislav Lukich;
SHISHKIN, Leonid Adrianovich; TSARENKO, Viktor Timofeyevich;
DOMANOVA, Yelena Alekseyevna;
BARKANOV, Nikolay Arsentlyevich; SYTYY, Gennadiy Fadorovich;
(Measurement of transistor parameters)Izmereniia parametrov
poluprovodnikovykh triodov. Kharlkov, lzd-vo Khartkovskogo
univ., 1960. 193 ?. (min 16:4)
(Transistors)
KUCHIN, L.F. (g.Khar kav); FILONENKO S.N. (g.Kharikov); PUTSENKO$ V.V.
(g.Khartkov;
Concerning the terminology in the field of transistor electronics,
Izv. vys. ucheb. zav.; radiotekh. 4 no.13106--UO Ja-F 161.
(MIRA 14--4)
(Transistors-Terminology)
MITROFANOV, V.P.; FIIDNENKO, S.Ya;
Automatic control of the skip hoist of a lime kiln. Sakh.pro;j* 29
no.1:9-13 155; (KUU, 8:4)
1. Moskovskiy tekhnologicheskiy institut pishchavoy promyshlonnosti
(for Mitrofanov). 2eVeselo-Podolyanskiy aakharnyv zavod (for Filo-
nenko)e*
(Hoisting machinerT)(Sugar lndustry~]Cquipment and supplies)
(Electric controllers)
FIMNENKO, PETROV, A.
Y_
DiEseminating practices of the "Borets" Collective Farm.
Zemlede.Ue 23 no.9t72 S 261. (mA u:v)
(Grain)
~: 4v~,
FILOIMIKO, V., starshiy leytenant
Reaching the essence of the matter. Komm. Vooruzh. Sll. 46
no. 21t63-65 N 165 (14IRA 19:1)
FILOINEM _V ~
0
Tmprovement of the tackboard of the ZIL-585 Ag 165,
(MIRA 1889)
89077
S/169/61/boo/bol/boVoll
101141-0 40) AOO5/AOOl
Translation from: Referativnyy zhurnal, Geofizika, 190, No. 1, P. 6, # 1039
AUTHORS: Fklonenko, V. A., Checha, V. A., Zelenkov, V. Ye., Vyshlov, V. P.
'fITLE: The Determination of the Horizontal Speed of Motidn'of Ionospheric
Heterogeneities From Recordings of Fadings at Three Spaced Points
PMUODICAL. "Tr. Sibirsi. fiz.-tekhn. in-ta pri Tomskom un-te", 1959, No. 37,
384-387~!
pp.
TEXT: Results are presented of observations of the drifts of heterogeneities
L& vi.:, ionosphere, which were carried out by the Ionospheric laboratory of the
Siberian Physiootechnicil,Inatitute in the period from September 1957 to March
1958 according to the program of the IGY. The equipment for measuring the drift
rate by the method of spaced reception with small base is briefly described. The
processing of the recordings was carried out in the main by the "similar fading"
method, It is shown that, as a rule, the speeds in the F2-layer (100-120 m1sea)
arn higher than the speeds in the E-layer (80-90 m1sec). For both layers, the
speeds are higher in winter than in autumn. During magnetic storms, the drift
speed considerably increases, particularly sharply in the F2-layer. It is shown
Card 1/2
89077
3/169/61/boo/ool/bA/bil
A005/AO01
The Determination of the Horizontal Speed of Motion of Ionospheric Heterogeneities
From Recordings of Fadings at Three Spaced Points
that the drift speeds have regular diurnal and sensonal regvlarities. For the
E-layer,.the north 'component of the speed has in autumn a constant component of
about 30 m/sec directed northwards, and in winter of about 40 m/sec directed
southwards. The east component has in autumn a constant component of about 25
m1sec directed eastwards. For the F2-layer, the meridional component is directed
northwards in'autumn (about 50 m/sec), and southwards in winter (about 30 m/sec).
The latitude component is directed westwards in autumn (25 m/sec), in winter it
has no predominant direction. The harmonic analysis of the speeds showed that in
the E-layer the 12-hours-component predominates, and in the F2-layer, fluctuations
with the 24-hours period are observed besides half-diurnal fluctuations.
E. Kazimirovskiy
Translator's note: This is the full translation of the original Russian abstract.
Card 2/2
ACC NRi- AP7005555 SOURCE 'COD-E- UR/0108/67/.0-22/001/-00.68/0074
(Ooe Z W4 -A-)
AUTHOR: Filonenko, V. AY; Yemel'yanovi V. Ye. Stel'mashenko(A,R--_-L--)
ORG: Scientific Technical Society of Radio Engineering and Electronics (Nauchno-tekh-
nicheskoye obahchestvo radiotekhniki i elekroniki)
TITLE: Errors in determining the bearing bv meanp of instantaneous amplitude
comparison of signals in systems with elliptically polarized antennas
SOURCE: Radiotekhnika, v. 22, no, 1, 1967, 68-74
TOPIC TAGS: direction finding, direction instrument, helical antenna, tJAA A~ "9,0
ial~ a-"-. 4"k
rBSTRACTrThe authors consider an error which may occur in determining the bearing
of a source with unknown radiation polarization when the method of instantaneous
amplitude comparison of signals is employed. A formula is derived for computing
the bearing characteristics of antennas with elliptical polarization. Some com-
putation results for the case of regLdar helical antennas are given. It was concluded
that the bearing characteristics of a system which is used to develop split bearing
indication of regular helical antennas,with helixes wound in the same direction vary
when the ellipticity factor changes and during variations of the ellipse of the
incident field. When the bearing of an object is determined using the method of
the instantaneous amplitude comparison of signals in respect to the bearing character-!
istic of the orientation of the incident field is unknown# the result may be in- I-
1correct. If the helix'es are wound in opposite Orections it is impossible to determine
Card_J 2 _UDC.;___621.,396..9.6
ACC NR, Ap7005555
the bearing of the object.
SUB OODE,. 09/ SUBM DATE: -AO~& 6Y/ OT 14 REF 001/
(CS]
FILONFMO, V.F.
Practical work in stockbreeding in the secondary 8chool. Politekh.
obuch. no.11:39-41 N 157. (MIRA 10:10)
l.Kamenno-Stepnaya srednyaya shkola Voronezhokoy oblasti.
(Stock and stockbreeding--Studr and teaching)
FILONENKO, V,N.
Pavilion "Agriculture" at the Exhibition of Achievements of the
National Economy of the U.S.S.R. in 1964. Inform.biul.VDM
no.1t2-3 Ja 164. (MIRA 17%4)
1, Glavnyy astodist ob"yedinennogo pavillona "Zonledeliya"
Vystavki dostizheniy narodnago khozyaystva 013SR.
11, !-- I
FEFILOV,V.V.; SMAREV,K.A.; PERSHANOVA.M.G.; FILONMO,Ya.R.
Crushing ac a method for Increasing the wood pulp yield of slash.
Gidroliz. I lesokhim. prom. 8 no.1:6-7 '55. (MIU 8:10)
1. TSentrallnyy nanchno-imoledovatel'skly leookhimicheakiy institut
(Wood pulp)
P;~
4 poulia, o
IIIIAM. Lad VA- IZ. Flsmaenk. t 1--i-
I orn. No, Tft~ z- -glpruc~ :~j 4
;%. al
4- 0. 0. ju~ t.i r rbv~ hmt !1,
t, L VMS
Ircr f :I
FILOMEOP YUIV"
Cablo-suspended crosaing of the Amu DaMq. Stroi.truboprov. 9
no.2t22-23 F 164, (MIRA 17:3)
1. Jtroitellnoye upravlaniya No.2 tresta No.rteprovodmohtazh. Tash-
kent,
BELOKONIJ, S.M., inzh.; MURMIWVI A.V., inzh.; ,FIIQ ffjap,--XuYsr-jnzh.
Determining the temperature of l3emicoke ingnition.
Teploenergetika 9 no.11:52-54 14 162o XM-MA 15:10)
1. Institut teploenergetiki AN U-krSSR.
(Coke-Combuntion)
WMVI YO*Toj ULDXOIIIV S#M#j___t~LLOji!XXO# Tuslra#j SHCHMOLLTj GoMi
.1
Dust removal fr&A gtoas in the precondetim#rs af lnduatTW I
power systands Xhits i tekhe toplo I mahel 16 Yic#107-41
Mr i65, (MIM 18:11)
"0 Ill
models. RMia no.4:17~ Ap 156. (Mu 9:7)
1.11achallaik Cha;rabinatece oblastnogs radtalcluba,
(IM19-Apparatus and supplIes)
FILONETS, P.P.
The Ili Delta. Trudy Otd. geog. AN Kazakh. SSR no.10s107-114
163. (NIRA 16:10)
.W-'- -
FILONET;39 P.P.
Overgrawth of reeds in the Alakoll lake group and their
significance for the natJ-nal economy. Trudy Otd. geog.
AN Xazakh. SSR no.ll-.192-202 165, (YIPA 1818)
KUZNETSOV, P.A., student V kursa; FILONETS, V.I., student V la=sa
Using experience acquired in the Moscow Basin for impro7ing stoping
in Tula and Lipetsk region iron mines. Nauch.rab.stud. GNSO IGI
no-5:37-53 157. (MM 11:3-1)
(Moscow Baoin--Stoping (Mining)) (Tula Province--Iron mines and
mining) (Lipetsk Province-Iron mines and mining)
PILONICH. V.S., auniotent
Categories of the productive force of labor "and labor productivity."
Trudy Kharl.inaho-ekon.inst. 8:73-85 '57. 04IRA 12:6)
(Economics)
ARTEMENKOP G.P.[Artemenko, H.P.]; VORONINA, 0,F.; SEMEYKIN, M.S.,-
FIDON [Filorjych, V.S.); HOSACH, I.P.; CHULKOV,
TENENBAMI, A.B.KIFOR.1-71KO, I.S.
[Kyforenko, I.S.]p red.; LEVCHENKO, O.K., tekhn. rea.
(Work incentives in the period of the large-scale building
of communism) St~ymulluvannia pratsi v period rozhornutoho
budivrytstva komunizmu. Kyiv, Derzhpolitvydav URSR, 1964.
166 p. (MIRA 17:3)
1. Satrudniki kafedry politicheskoy ekonomii Kharkovskogo
inzhenerno-ekonomicheakogo instituta (for all except
Kiforenko, Ioevchenko).
TRETIYAKOV, A.K., kand.tekhn.nauk; FILONIDOV, A.M., inzh.
Use of ultrasonid waves in studying the quality of concrete in the
bridge crossing beams of the Kremenchug Hydroelectric Power Station.
Energ. stroi. no.16:22-26 160. (miRA 16:--,2)
1. Moskovskiy inzhenerno-stroitellnyy institut im. Kuybysheva.
TRETIYA,KOV, A.K.9, 'cand.tekhn,nauk,_KIk
A.E.,
TII~DQV
Ultrasonic testing of centrifuged shell colu-mv. Tzaamp. stroi..' _111
no.2:28-31 F 161o (IdRdt 14.,.,
(Ultrasonic t~-sting) (Piers) (Cohmns, Coner-_~,e)
FILONIDOV,_A.M.,_inzh.; TRETIYAKOV, A.K., kand.tekhn.nauk
Ultrasonic strength control of concrete in bridge beams.
Transp. stroi. 11 no.8:47-,48 Ag 161. (MIM 14:9)
(Ultrasonic waves-Industrial applications)
(Beams and girders)
TRETIYAKOV, A.K., kand.tekhn.nauk; FILONIDOV, A.M., inzh.
Advantages of the application of ultrasonic waves in testing con-
crete for strength. Energ.stroi. no.25:51-54 161. WRA 15:4)
1. Moskovskiy :Lnzhenerno-stroitel'nyy institut im. V.V.Kuybygheva.
(Concrete construction) (Ultrasonic testing)
(Kremenchug Hydroelectric Power Station--Concrete construction)
TRETIYAKOV, A..K., kand.tekhn.nauk; nLONIDOV, A.M., inzh.
Study of solid concrete with ultrasonic waves. Energ. stroi.
no.Z7:61-66 162. (NIRA 150)
1. Moskovskiy ordena Trudovogo Krasnogo Zhameni inzhenerno-
stroiteltnyy institut imeni Kuybysheva.
(Ultrasonic waves-Industrial applications) (Concrete-Testing)
FILONIDOV AA lobs
I ej 0
- Experience with ultrasonic waves for evaluating the qum~lity
of concrete in elements and structures. Bet. i zhel,-bet,
8 no.6:259-262 Je 162. (MIM 15:7)
(Ulta%sonic wavea-Industrial applications)
(Concrete-Testing)
TRETIIYAKOV, A-.K., kand. tekhn. muk; FILONIDOV, A.M., inzh.
Using ultrasonic waves to test dolid concrete at the Dnepro-
dzerzhinsk Hydroelectric PowerStatiom Gidr. stroi. 32 noj:
20-41 Mr 162. (MIRA 16:7)
(Ultrasonic waves-Industrial applications)
(Dmprodzerzhinsk Hydroelectric Power Station-Concrete-Testing)
TfIETIYAKOV,A.K.,kand.Loklin.nauk; I-'ILOI,4lFk)V,A.I';.,inzh.;
pro f . , i,(jd 0
[Control of concrete by ultrasonic waves in hydraulic-
engineering construction] Kontroll betons. ul'traz-vukom v
gidrotekhnicheskom stroltellstve. Moskva, Energiia, 196./,.
85 P. (MIR.-', 17: 10)
PIWMI, V., inzh.
Attachment for boring brake drums. Avt. transp. 37 no-7:28
J1 159. (MIRA 12:10)
Uethes attachments) (Automobiles--Brakes)
FILONOV, A.
S
Scientific and technological revolution and the aggravation of
contradictions in the present-day capitalist system. Komm.
Vooruzh.Sil 2 no.1:43-50 Ja t62. (MIRA 24:12)
(Economics) (Automation)
t j
~308- Effect Of.Phtdoli 'duls Oa We
C
/'
inn. N. F.
0
03
3 datio of mbbehad dlpe;le
J
P
W~ 47-'qo- 23.
un~~j, - q9I
load, aba. '�W& The.
Authors I tv d the prokicsive affoct of nhena
"=I-, ----
x
lie antioxidtat wilh ,rarying dogrecs of I
in
4XI&Ig Ell* O)Lid&tiO.
r tu.,
=
r
'f
rqhbor in 0.69, xykmo solution and o dipautatio
-t Iffi'm
o 00V-7 The-offlop Aauma by thachanp In I
viscosity of the tubber golutialm and by the kinetics
of the abaoriWonof oxygm by dipeatone. Tim
activity of phandlia antioxidants and of v- and
P.DaphOW IN QA ba"~Jawa~ del"ELS UpUtk th*
ji4~6n' -a ~.~4j~dtoxy group; doAa- and para-
isomem are mom active than the metaf*omom.
4232H0
FILONOV, B.O.; PAVLYUCMKO, M-M- N
Spectrum determination of copper, lithium and rubidium in mineral
salts. Sbor. nauch. rab* Inst. khim. AN BSSR no.6;92-101 158.
(MMA 3-1: 11)
(Copper-Spectra) (Lithlum-Spectra) (Rubidium-Spectra)
sov/81-56-16-56812
Translation fromi Referativnyy zhurnal, Khimiyaj 1959, Nr 16, P 115 (USSR)
AUrHORSg Akulovich, V.M., Filonov, B.O., Pavlyuchenko, M.M.
TI.=T SomePossibilities of the Method of Additions In the Speotral Analysis of
Mineral Salts
PERIODICALj Sb. dokl. 1-y Nauchno-tekhn. konferentsii po spektr. analizu. Minsk,
AN BSSR, 1956, pp 47-52
ABSTRACTa, A method of extrapolation for finding the concentrations of an element. on
the base of the known dependence R = ACb at any values of b is described.
If the sample is divided into fractions and in 2 of them additions a %
and c % are made, then Rx = V; Rx+a = A(x4a)b and Rx4c = A(x4c)b. Con-
verting into logarithms and excluding b, the tollowing equation is obtained,~
lg(R,,/Rx.+a) - lg(x+a)/(x4e) = lg(Rx.,~.-JR x4c) - The latter equation has a. simple
solution under the condition: 19R /~x4a -LVf4a/R
k+a - -RX+c Then ( _x_~,, from which follows
that - 44C 12/(c ;Zf/(x+c) x4a) and the calculated for-
mula has the form. x. = a - 2a), For analysis a graph is plotted in the
coordinates R versus concentration of additions; the geometric mean is
Card 1/2 calculated between the relative intensities for the sample without additions
sov/81-59-16-56812
Some Possibilities of the Method of Additions in the Spectral Analysis of Mineral Salts
and for the sample with a greater addition and, bazed on the value of R, the corre-
sponding addition a is determined from the graph and substituting the values In the
calculated formula, x is found, Extrapolation needs the consideration of the back-
ground; in the absence of a background the calculation can be carried out based on the
values of-AS. The method has been successfully tested by practice.
G. Kibisov.
Card 212
3/7 /U-C 1/005
D204/1)303
AUT-WORS: Pavlyuchenko, X.M. and Zi-l-qnov, B.O.
TITLE: Influence of third components or. the intensity
of the spectral lines of Li, Rb, Cu, ---a, Sr, and
SC,r,RCE: A'-ademia nauk 53ST, 1-linsk. I.-sti-ut obshchey J
U r- -
neorganichesk,oy khitiii. Sbarnik nauc.hYh:j1:h rabot.
1 , INinsk, 1960, 27 - 5"
T T This is ar. investiGa-z;ioy. of the effect of cheziical
cornDosition on the spectral intensities of the above metals, motivat-
ed by difficulties experienced in the spectral analyses of trace ele-
mae nt sin minerals, particularly those of K. In the first sp-rie-- of
experimenTS h-aCl/Y.Cl mixtures were prepared, each chloride ranging
0 to 100 c , and 10-3 % Li, 5 10-3 , -3
% X 161 Rb and 5 x 10 Cu were added
to each composition. 0.5 5o Ba was present in all cases. Intensities
of the spectral lines and of the background were measured on. the
OCn -51 (ISP-51) spectrograph (ISP-22 for Cu), usinc -,"-e -4
Card 1/2
S/713/60/G,CO/001/001/005
Influence of third com-conents ... D204/D303
(UF-4) camera.Experimental details are described in 'Crief. T~ was
found that with ncomplete volatilization, the line intensities
all showed sharip minima at - 10% KC1. BackEround intensities ex-
hibited the same -ohenomenon. The relative intensities of Li/Ba
and Rb/Ba were also strongly dependent on the K1.1/!-.aC1 ratio. Con-
positions based on NaCl/Ai 0 , NaCl/CaSOI, -and Ns.C1/MCSOL. (all rani;-
2
ing from 0 to 100 56 as for I I-,aCl/ycl Mixes) were also studied,
in the same way. Complex relationships between the line in-~ensities
(measured with the iNirl:1-2 (V~7-2) stnectrometer) a.-.d tie ratios Of
the 2 basic components were observed. These effects, which compli-
cate the spectral analysis, could be el_IM4rated almoz-. totally by
diluting the mixture with an equal amount of powdered carbon, in
-the case of I"aCl/KC1 compositions, especially if the samples were
completely volatilized. Carbon additions Oild not, however, '-aVe 7~,'~.e
desired smoothinO effect in the case of ';aCl/A1203 r:ixtures. The -re-
sults are discussed in relat-ion to the volatility of the corres,!:ona-
in& basic mixtures. The latter problem -is now invest-J'r-ased. Th a z e
are 7 figures and 10 Soviet-bloc references.
Card 2/2
S/048/62/026/007/011/030
B104/B138
AUhORS: Pavlyuchenko, M. M., and Filonov, B. 0.
TITLE: The use of radioisotopes for studies of the evaporation of
salts in an a-c are
PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya,
v. 26, no- 7, 1962, 876-881
TEXT: The dependence of Li, Rb, Ba, and Cd line intensities on'NaCl and:
KC1 bontent was investigated on synthetic potassium salts.'c6ntaining
0.001_0.01~o Li and Rb chlorides and 0.1-11- Ba and Cd chlorides. current
in the a-c arc was 8 a. If only NaCl or only M wad present, maximum
line intensity occurred during the first period of are burning. If the
two salts'were present as a mixture, it was nearer the end. For all the.,~
elements examined the variation in line intensity during evaporation is
similarly dependent on the ratio of the two sal's. Using the rhdio-
115
isotopq Cd in the CdCl compound the radioacti46 intensity of the
2
samples was determined before evaporationg and that of their residue aftet
Card 1/0
S/048/62/026/007/011/030.
The use of radioisotopes for studies B104/B138
it. From this the amount of CdCl2 evaporated was calcuiated (Fig. 1).
Variations in line intensity are clearly connected with the evaporation
process. The decrease in Cd line intensity. is because Cd chloride
evaporation from NaCl - KC1 mixtures is slower than from the sing1d
components. The rate of evaporation is directly dependent'on changes-
of vapor pressure above the salt melt due to variation in the evaporation'
temperature from the lower electrode. There are 3 figures and i table.
Fig. 1. Curve (1): Blackening of Cd 3403.65 R lines as a function of the!
NaCl - KC1 ratio. Curve (2): Amount,of,evaporated Cd (in-mg) as a
function of the NaCl M ratio.
Card 2/0.
ALMANDROV, P.A.. doktor.tekhn.nauk; WPIN, P.T., kand.tekhn.nauk;
SOROKIII, A.A.; KARPOIN, A.M.; CHEP&M, F.F.
,--FIIDNOV, I-G.'
Tempering rail heads along the total length. Pat' i put.khoz. 4
no.8:15-16 Ag 160. (MM 13:7)
1. Ukrainskiy institut metallov (for Alsksandrov, Besedin).
2. G:Lavny7 inzhener Metallurgicheskogo savoda im. Dzerzhinskogo
(for 7ilonov). 3. Nacahlinik takhnicheakogo otdela Metallurgichesko-!:o
zavoda im. Dzerzhinskogo (for Sorokin). 4. Nachallnik metal-
lurgicheskogo zavoda im.Dzerzhinskogo (for Karpunin). 5. Nachallnik
rellsobalochnogo teekha Metallurgicheskogo zavoda im. Dzerzhinskogo
(for Chepelev).
(RaiIxo&ds--RailjI)
(Tempering)