SCIENTIFIC ABSTRACT KHODAK, YU. A. - KHODAKOV, YU. V.
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SCIENTIFIC ABSTRACT
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I-CM SSION NR: AP)10096.~_
trace the evclut:lca- of blocs liult a Awl depth fract
Wd by s~st= of g1A Uxes.
^extending in four directions for thousands of kilawterst meridional, sul=riridim-
al, latit 3dinal, and sublatitudinal. The Seopbysical isignificance of these
fractures (-Dreaks) in discussed, and the moot ancient il"tems am traced in de-
tail. The author states -"t approximately 100-150 million years ago the,11oca
bad to a large degree inherited Its ancient stractural.plan; the central meridion-
al zone of fractures of the southe= hemlaybere vas t1w most mobile, vbLile. the
far side was fairly stable* In succeeding periods a nwther differentiation of
structural elements along the;depth fault zones creaWI the present enoxmous blw&
A demonstration cxC' this hypothesis is given. The.authcw cites the evidence of A.
if. PeyveVIttruktura, zemnoy ka6 i defomatsil gorgykh porod.11 Izd-vo AN SWRi 1964
67) and G. He Katterfel'd (Izve Wiese geogro owva,, vo Sol, no. 272, 1952) oft the
existence of a bloc structure on the Earth and, Man as reason for investisating
the possibility of a general lav operative In the develLopient of a hard care in
these bodies* "The author vishes to express his gratitude to Doctor of 111gysics
and Matbematics-A. G. YAsevich for her help In conducting the studies." OriginILI
article hasi 2 figures.
Card 2/X_
P 0
A.
Principal struct-ure.1 elements of the nocn and the oo.raphival
and geological met-ho(Is of stutIne 0 fIz. plan,
, them. 1,-v. Ron. p
ne.4:10-23 Ag 163. . . Olipu~ is: 5)
J. Laboratoriya osadocbnykh poln-,rykh iskopayemykh Gosudarsimennogo
980J.391ches'11,0go lwmiteta 8,13,SR.
IRODAX,, Yu*A*
Geological. of the Insser Kbingan Mountairs and its position In the
structure of the Par FAAt. 'Sov. geol.'6 no.6:20-31 Je 63.
MU 16:17)
3, Laboratori3ra osadochnyl& polemiykh iskopaysmykh AN SSSR.
(Khingan Mountains-Geology, Fktruetural)
IMODAK YU,A,
Main stmetural elements of the moon and tho importance of geograph-
ical and geological methods in lunar explorations. Izv. AN SSSH.Ser.
geol. 28 no.&11-22 Ag 163. (MIRA l7t2)
KHODAK,, Yu.A.; MBOTAM, MS.
Ancient formtiono in the Amur Valley. Sov. geol. 7 no.ls
79-94 ja 164. (MMA 17t6l
1. Dallnevostoohnoye geologicheskoye upravleniye iLaboratori3a
osadochnykh poleznykh iskopayenrYh Gosudarstvennogo geologi-
cheskogo komiteta SSM.
XHODAKp TueA*
Structural and pnetic charaoteristics eLf ths, iron-mangsneBif
minera.Usation of the Karashal type (aentral Kazakhstan)* Zrudy-
SNIIGGM no.35t2l&227 164. (14IRA, 1815)
V.A.; YFODAK, Yu.A.; GRIBOV, Ye.M.; SYNIGAYEVSKIry, Yt~.D.
t" -
of clay irinerals in tha Up~er Famenn-lan rocks and ores
Of the Dzhaillma trougb. Dokl. AIN SSSR 1C.., no-4%-906-90C) 0 lbr~,
(MA 3.8:10)
1. laboratoriya osadochnykh polezrlyLh Ishopayamykh AN SSSR. Sulp-
m;-tted May 12, 196"
.10
Aii~iSO75
SOURCE.CODIM.- UR/0l69/66j000/008/C;00l/G00,l
AUTHOR:
MWdak Yu. A.,.;
TITLZ: Defining the main features of the structure amd development *of the Moon
and their significance in the elucidation of principles ofleoloxica6henomena
SOURCE: Ref. zh. Geofizika, Abs. 8G1
REF SOURCE: Sb. Materialy k Soveshchantyu Cbshchiye zakonomern. goole
yavlenly, 1966, Vyp. L 4, 1965, 197-202
TOPIC TAGS: moon, geology, sclenography, earth, planet, map
ABSTRACT: In order to find the basic magnetic and block structure of the Earth,
it is necessary to find the principles-of the distribution of lunar ring structures and
their connection with large and local blocks. The basic problem in the study of the
structure of the Moon Is the development of the stratigraphic scale of its forma-
tions. A structural-oelenological map of the visible part of the Moon at a scale.
of 1.-2,500,000 was compiled. Four structuralstratc are seen on the mop. The
-areas of an emerging, mechanically eroded, ancient basement were noted. The
Card 1 2 UDC: 550, 311
.:..-rA-:
KHODAK. YU.S.; diMI SHU [Sun Sh~j
Stratigraphy of Upper FAIA'osoic sediments in the north4stern part
of China and adjaoent territories of the southern part of the Soviet
Far East. Biul, MDIP. Otd.geol. 38 no.2:56-73 -Ta-F 163.
(HIRA 160)
(China--Geology, Stratigraphic) ,
(Soviet Far East--Geology,,.Stratigraphic)
KHODAKIN. N. I.
Soshniiov'a, K..N. and QjWR'wTh9 Aitiological Agent of 'a Peculiar Porm of An6e-
phalitippm Dok. AN, 47, No# 3, 194j. Xbr., Uzbek Inst, Hiorobiology & gpidemlology.
Tashkent, -1944-o49--.
41,
I'mw
TI
IMPR mmm_~
biw
7
s/lq(;/63/ooo/ool/oo6/o35
X1
AUTHORS: Protsen)co, P.I., iodakov A.A.,)4irskaya, Ye.Z. and
Vencrovskaya,-L.N.
TITLE: Fhysicoc~hemlcal parametexs of n1tr1tes and nitrat 'as of
alkali a'?nd alkallne-oarth metals with ferroelectric
propertips
PERIODICAL: Reforativnyy zhurnal, Elektrotelchnilia i energetika,
no. 1, 1963, 17, abstract I *B55s.- (In collectior;',:.
Segnotoelelctriki (Ferroelectrics), Rostov-na-Donu,
Rostovsk, un-t, 1961, 21-26)
TEXT: In connection with the possible application of 1'erro-
electrics as nonlinear elements in conjunction with electrcilumino.;~'*,
phors, it is desirable to have availal;le forroelectrics cheiracter-
ized by low c , this property being necessary to ensure their.
compatibility with electroluminophors. With this in view, a study
was conducted of crystals of those nitritess and nitrates oC alkali
and alkaline-earth metals that possessferroelectric properties;
the experimental specimens were crystallized out of aqueous
solutions or grown by the Bridgman method J.rom their melts, Thermal
Card, 1/5
s/196/62/ooo/ooi/oo6/05
Physicochemical parameters E193/1083
analysis of a large number of.nitrates and nitrites enabled the
authors to obtain more accurate data on their melting points,t to
establish the existence of polyi--torphic transformations and to
determine the transformation temperatures (these data being
reported in the form of a table). It was.shown that single crystals
of sodium nitrite (NaNO ) in the direction of the 13 axis consitu-
ted ferroelectrics with 2 e -437 0K, i.e. 164 OC (see Fig. 1), the
magnitude of c at a being more than 100 times-higher than that
at room'temporature. The magnitude of spontaneous polarization,
determined by pyroolectrical measuremients, wa:% found to e about
7 lik/cm. Typical hysteresis loop's were observed at 413 K (140 0C)
at 50.c.p.s. High values of coercive.fields'at room temperature
Were established, A study of the dependence of c of NaNO on
OrL 2
.temperature and the intensity -the DC field E showed thatL
decreased with increasing E at temperatures lower than el
being independent of Z at e Dilatometric measurements showed
that the temperature cogfficient o6 lineir expansion a of NaNO
2
was of the order of 10 4 X10- deg- , and that the temperature-
A
-dependence of a differed from that typical for ferrooloctrics
iCard 2/5
s/196/62/000/001/006/035
Physicochomical pprameters
-vod which disappeared at tamperat 8 h
domain structure was obsex urn i#w
rysta35
than E) and was not restored or. cooling b olow 0 Single i.
of sodium, rubidium, caes3-um and thallium, nitrates had phas 'a- ture
transformations in the temperature range between room tempera.
4nd the molting point. The transformation of sodium nitrate from
the second phase (with an orthorhombic structure of aragonite) to
the first ohase (with the calcite structure) i-ooic plage on heating
5
above 403 K (13.0 od~; on cooling belo%r 397 K (124 C) the irirst
phase chan-ged into f8rroolectric third phase, which remained istable
do'Im to 383 0K (110 C) and then changed to the second phase. The.
transformation af sodium nitrate to its ferroolectric phase was
accompanied by a decrease in c . Transformation from hexagonal
to cubic modification took place at 434 OK' (161 OC) in rubidium
nitrate,6 a chan�e from cubic to rhombic modification takingplace
at 492 K (219 C); Ck phase-transformation In this compound iras
observed also at 564 0K (291 OC). Rubidium nitrate had no forro-
electric properties in the temperature interval studied A ohase-
transformation took place in caesium 'nitrate tit 427 'K 454 (11)
but no maxima were observed near.the transformation temperature.
Two phase-transformations wore observed in theillium nitrate (iiee
rard'3/ 5
S/1q6/62/ooo/oo1/oo6/o:t5
Physicochemical parameters E193/E3,83 TI
Fig. 2):- y->p transformation 0at 348 OK (75 00 and P --;~ a
transformation at 418 OK (145 C) . The, increase in c,
observed on heating thallium nitrate.was attributed to the increase
An,conductivity. No ferrocIectric properties -were observed in~
-barium nitrate a (Tl-Ba)NO complex and certpin other' nitratess
There are 5 figures and 3 references*
[Abstracteres notet Complete translation-I
NO
CAPTION to Fig.l:
Temperaturo-dependence or c VO
and tan 6 of N&NO at f 1 Me/s,
2
Ma
F1
L-Card,4/5
xv 11.3
. 112
`-el 111.
217 go VO 140 1847 11C
Fig. 1: -
is, m ju *M 433 Is
~4
S-/0-19/61/COO/024/031/088
A156/A126
AUTHORS: Sholokhovioh, M.L.; jaodakov,, A.L.
TITIE: Seignettoelec.tric monocrystals
-PERIODICAL: Byulleten, izobreteniys no. 24, 1961, 30
TMU Class 219, 1102- No. 143477 688328/26 of December 1960).
Seignettoelectric monocrystals based on barium titanate, the distinctive 1eature
of which consists' in that for the purpose of increasing the nonlinearity of
their characteristics and raising the rectangularity of their hysteresis loop,
I - 2% barium hafnate is added to the barium titmiate.
Card 1/1
W~
4 .22 71M
It
SOURCE: RZh, Khimiya, Abs, 12.B466
iAUTHOR# - Kramarov, 0. P4111 ~401 qLWOvith., MM. L
Akoti-A.
TITM: Monocrysta In of said sojAtiuma of-4trnti ond
titanates
CITED SOU'"GE: 3b. SagnetoolelctriKI.
i1961t 5-11
TOPIC TAGS: solid solut Lon$ strontium, lead), st'rontturn
lead titanat-e, monorysl., ,ILI,Lne stri.,cture
qvM A vrg,
am ftt'--th By$
n,~__bt io -and- thei, orft Mjo Z00-fit-filij:
Oua
7 40 n -tied. For ciotann~n~~
j establis
ponition of the r"I T, I n r.(A ~1 p -
c 0 rid ucv 7'1,) C~_j ja L cm. o t 4 1 r w,:i
in jwr~plo"i cf,
ACCESSION NR: AR401#2161 S/0196/64)'000/005/BO19/BO19
SOURCE: Rat. zh. Elektrotekhnika i energetika, Abs- %13~
AUTHOR: Lezgintseva, T. N., Khodakov,__A.-Lo
TITLE: Influence of alight impuritien of iron on the dielectric propertien of solid,
solutions of barium titanate and stnnnate
CITED SOURCE: Izv. Leningr. elektrotekhn. in-tag vY*P- 51, 1963, 260-267
TOPIC TAGS: barium titanate, barium stannate, dielectim. property solid solution
TRANSLATION: The depe ndence ofit on the intensityof a variatle clec~ri'r.* fie34 QUP to,
10 kv/em), re~veisible e (F,,=varie_d u-p--to 8 kv/cm)'wan - atladied at 300 . k-c, hyit'cresis'
loop and dependence on temperature of e and tanS at 300 kc from 20 to 140*C for
:ceramic solid solutions of BaT'03 - BaSn03 with 0; 3; 6; 9 and 12 mole % BaSn03
-and 0; 0.1; 0.2; 0.4; 0.7; 1 mole % F0203' Introduction of additions Of Fe. 0
leads to a. sharp lowering of the nonlinear propertieu of solid solutions-, t. is is~,
ACCESSION NR: a4o4aft
especially noticeably for compositions containing 6 mole % Wn03' In solLd
solutions with additions of iron, 8 shifts In the direction of low temperatures.
the more noticeably, the higher the concentration of Fo, while t is also lowered
at 0. These effects are more noticeable in solid solut-,ions baked directly frcm,
a mixture of BaT103, BaSn03, and F0203. The influence of Fn impurities on 0 and
e in pure samples of BaTiO3 is noticeably less than.in solid solutions allDyed with
the sam-2 concentration of Fe. For the manufacture of i7erroelectric-cerami,:s and
single crystals with the sharpest expressed nonlinear properties, it is prDpo3ed,
to avoid materials containing Fe, Three illuatrations,, Bibliography: 4
rcrarencc3. (Rostov-on-Don State University3
SUB CODE: IC, EM EWL: 00
F'L V
XHODAKOV. B.. student.
In the White Russian State University. Radio no.10:11 0 1~7.
(MIRA 10:10)
1. Zhimichookiy fakul'tot Belorusskogo gotiudaretvennogo
universiteta iment T.I.Ionina.
(White Russin-Radio clubs)
-- -- l.", I kMRpe---- -- -
TSAIGs B.A.; KHODAKOVt D.Ye. (Xuybyshev-obl.).
Treatment of fractures of the patena. Kaze med, zhur. ni). 4:9D-
gi n-Ag 160, OMM 13 118)
(PATRUA-FRACTURE) -
D - .$.-;.XUDRTA';TSE Ao N.L. (Mosa6v)
00 9 -G v
ChAracteridtica of the adsori#01i of t4aps-'and-vapors on,agsTegaW
disptr6eid; ~materials during th6jr Co'm'i lr~;t~on. Zhur.fiz.wum,,: 37 10s
2241-224$, 0 0~63 (NIRA 1712)
1. vae.soyumW%.riauchno-issladovatillskiy'riAgititut nov,,ykh strioitallnAh
materitklay Akademii stroitallatul &rWAekturv ssm.
4-E
:r4
R
The 4~!wY4
t1w vil~tll 0.1 of
Ot
War, MM-P,
0-
NO I
V-PS E-f-p
5W SOV/2o-123-4-43/53
AUTHORS KhodFikov, G. 3.1 Plutfliso E. R.
TITLE: On the Solubility of Finely Crushed quartz in Water (0 rast-
vorimosti tonkoizmel'ohennoGo kvartsa v vode)
PERIODICAL: Doklady Akademii nauk SSSR, 1956, Vol 123, Nr 4, pp 725-728
(USSR)
ABSTRACT: The present paper deals with the isolubility of quaribz powder
in distilled water. The degree of disperaion of the powder
under investigation man estimated according:to its opecific
surface. The quantity of quartz contained in the solution was
photocolorimetrically determined. Also the influence, of the
glass from which the vessel is made and of the silicon in the
steel container.-was taken into account. The first diagram shows
the curves of the kinetics of the dissolution of finely ground
quartz sand in water. The course taken by these curves con-
firms the formation of a true (and not of a colloidal) solu-
tion. These curves are well described by the kinetic equation
0 Csolubility (I e-k-r )# Hore C denotes the concentration
Card 1/3 of the SiO 2 passing into the solution within the timo rp
'On the Solubility of Finely Crushed Quartz in Water SOV/2o-123-4-43/53
Csolubility - the solubility, k - the solution rate constant.
Csolubility oan b'e determined from the above diagram. The
aforementioned equation may be written down as follaits:
C
In - alubility a k T I i t i a confirmod by oxperimi.,ntal
C ,
M.ubility
data. The constant k does not depend on the duration of quartz
crushing and amounted in tie case of the OXDerivents discussed
-1
here to 0.056 days . A prolongation of the duration.of the
dry crushing of the quartz increasos the values of C volubility*
According to the data obtained, thet investigated powd,ers.of
finely ground quartz sand have practioally the same surface.
According to the authore'data, the solubility of the finely
ground quartz in water.at room temperature in some cases at-
tains the value of 120 mg/lf which surpasses the solubility
of coarse-crystalline quartz by 20 times its amount. This
abnormally high solubility may be explained by a destruction
of the crystal struoture of quartz in the grinding mill. The
here discussed data make it possible to explain the mechanism
Card 2/3 of the formation of the hydrosilicates of calcium and magnesium
On the Solubility of Pinely Crushed quartz in Water SOV/2o-121-4-43/53
in the interaotion of their hydroxides with the firtely ground
sand in water at room temperature. Also the part played by
sand filling medium of concrete with a.low cement content,
which was ground in a vibration mill, may be explained in a
similar manner. The authors thank Academician P. A. Rebinder,
D. S. Sominskiy, V. B. Ratinov and L. A. Feygin for discussing
results and for their valuable advice, and they al&'o thank
N. I. Gludina for her asuietance. Thereare 3 fil-orest 1
table, and 16 referenoes, 12 of which are Soviet.
ASSOCIATION: Vaesoyuznyy nauchno-iseledovatellskiy institut tonkogo iz-
mellcheniya Akademii stroitelletva i irkbitektury SSSR
(All-Union Scientific Research Institute for Fine Grinding
of the Academy of Building and Architecture, USSR)
PRESENTED: July 25, 19589 by P. A. Rebinder, Academician
SUBMITTED: July 23, 1958
Card 3/3
5(4) SOV/20-127-?5-38/58
AUTHORS,
Khodakov, 0. S.j--Rebinderp P. A., Academiaian
TITLI: The Investigation' of,.the Fine Dispersion of quartz ar,d of the
Influence of Added Liquids Upon Thl.e Prooess
PERIODICAL: Doklady Akademii nauk SSSRt 1959* Vol 127* Nr 5t.PP 1070-1073
(USSR)
.LBSTRACT-. The effect produced by acetone$ etbyl alcoholp water, benzene,
tTiethanolamine and oleic acid-tipon-the dispersion of quartz
sand-was-investigat-ed..' Crushing map carried out in a1aboratory
vibration mill, and determination of the degree of diapersion'
-by measur-ing-tho.specific surface by means nf adsorptlon;of
nitrogen at low temperatures'apoorcting to ref erexios 14~. Tig-
Ursa 1-4 and tables I.and 2,show the'experimental. resix1ts. The
addition of liquids causes a considarab~le increase of:the
specific' surface in comparison to d-ry-grinding. The.el!fect.
the individual liquids is about equal. ThJ;,s result
produced by
'
is explained by the'fact that.,, in the'case' of dry, grinding,
relatively solid particle complexes are produced, the tight
packing of which prevents nitrogen ftom penetrating, 4io that
a large part of the fres'surface is eliminated. Additions of
Card 1/2 liquids caues a oonsiderable extent of desaggriegation, As
SOV/20-127-5-38/58
The Investigation of the Fine Dispersion of Quartz and of the Influence of
Added Liquids Upon This Process
shown by figure.3p desaggregation depends -Upon the qlaantity
of the liquid added. In water, a minimum occurs at an addition
of 2-30%,, which is followecl, as a result of further aiditions,
by a rapid inorease of desaggregation. As shown by ex1peritentep
the described.phano 'mena are oonfine4 not only to quariz alone,
but in a different degree oharaoteristic also of othex solid
substances, such a3.oorundum, and oalcite. There are it'figures,
2 tables, and 19 references, 14 of whiah are Soviet.
ASSOCIATION: Vseaoyuznyy nauahno-iouledovatellekty Inatitut tonkogo izmell-
chenlya-Akadetaii. stroitelletva i arkhitektury 533E (All-Union
Scientific Research-Institute for Fine Grinding of thii Aoademy
of Building aria Architecture, USSR). Institut fizioheakoy
khimii Akademii nauk SSSR (Institute, of Physical Chemistry of
the Academy of Sciences, USSR)
SUBMITTED: May 22, 1959
Card 212
KHODAKOV, G. S., Cand Phys-Math Sci -- (diss) "Research into processes
of quartz dispersion-" Moscow, 1960. 18 pp; (Academy of Sciezices USSR,
Inst of Physical Chemistry); 150 Copies; price not given; bibliography
at end of text(11 entries); (KL, 26-60, 131)
V I - _~ ~ h
--W AR
P~; ;'15" Oy MWO
8
0
MEN 6_1
115712110 67896
+4*- S1020160113010610261059
AUTHORSs Xif-eley, V. F., grasi-Inikov, K. GzLB004/BOO7
Khodakov, G..S.
TITLEs The Influence of the Iggregation of quart Particles During
Grinding Upon Its Adsorptive Prope:rties
PERIODICALt boklady Akademii nauk SSSR, 1960, Vol 130p Hr 6, pp '1273 1276
(USSR)
-ABSTRLCTi In referen6i lit was-said that tho specific surface;of air-
dried quartz decreases with an increase of the duration of
grinding. This van explained by tho aggregation of tkie quartz
particles. The authors aimed at investigating this pkienomenon
more thoroughly and to find out whother its effects on the
adsorption of nitrogeng and water differ. They maintain that
this phenomenon is the cause of tho considerable disgrepancy
in published data for adsorption ve,lues and adsorption energy
of quartz. Two samples of highly dispersive quartz were in-
Yestigated. Sample Kv-4 was obtained by grinding.trarsparent
crystalline quartz with an excess of water, sample KV-4A by
further grinding KV-4 in air. On both samples, the adsorption
Card 1/3 of nitrogen and steam was measured (Tab le'l). As shown by
67896--
The Influence of the Aggregation of Quartz Partio'les 5/020/60/130/06/026/059
During Grinding Upon Its Adsorptive Properties B000007
figure It the. adsorption -isotherma% line of nitrogen_on V_v_4k
,is lower than in the case of XV-4 because of partiob 'i aggrega-
tiong whereas the adsorption isoth*rmal line of Steam is
higher. Also figure 2 shows that the different kind of grinding
the same quartz affects the adsorption of nitrogen and steam
differently,,This phenomenon has.not yet been explained. It is
presumed that relatively dense aggimgates are formedli the inner
surfaces of which are inaccessible:to the nitrogen, whereas the
adsorption of water is not irpaireil by these aggregai;ions
because of its dispeTsive (paptizilig) properties. Suoh phenom-
ena of aggregation were observed,also in the case of.other sub-
stances (corundum, calcitep silica gel) in dry grinding. The
authors thank Academician P., As Reloinder for hie intbrest in
this paperp and G. Is Aleksandrova for assisting in measure-
ments. There are 2 figureep 1 table, and 2.1 references, 13 ef
which are Soviet.
ASSOCIATIONt Moskovskiy gosudaretyenriyy universitet im. U. V. LomDnosova
_.: I ' (Moscow State Urtt-4ersity imeni M. I. Lomonosov). Vaesoyuznyy
Gard 2/3 neuchno-iseledovatellskiy institut novykh stroitelln; .ykh
KHODAKOV, G.S.; MIIM, P.A.
Effect of the medium on the processes of dispersion of solids,,
Koll.shur. .2z w*3:363-373 Nr-Je 160. (MIRA 13 S 7)
1. Institut fisicheskoy khimij AN SSSEL, Mel dispersmVkh sisjism
I Institut novykb stroitelInykh materialov AN SSSR, Moskva..
(Dispersion) ((bwts)
IWDAIOV, G. S.
Kinetics of the fine comminution of quarts* Dokl, AN SSSR 134'noji
574-577 8 160, (MIRA 13:9)
1,,reesoyonyy nauchup-leeledavatellskiy institut novykh stroitellnykh
materialor Akademii stroitelletva i arkhitaktury SSSR. I)redetavleno
akad, P.A. Rebirderom,
KHODAKOV, G.S.; REBINDER,, P.A.
.9hani= of coodmtion of quartz in surrace active
media [with aumm;;7 In English]. KoU,zlxar.'23 no-4:482-490
Jl-Ag,161. (MIRA 14-.8)
1. Inatitot fizicheskoy khimii AN SSSR, Otdel clisperanyU
sistem i,IJaiLchno-issledwmt~-"a)ciy inptltiAt novykh stroitelitykh
materialov Akademii stroitelistva i arkhttektury-SSSR.
(Quartz)
LUMP G.Eh.; KLALUKOVSKIr. Ye.I.; GATILOV, Yu.F,.; 'RHODAKOV, G.S,
Separation of quaternai7 areonium ompounds into optical
antipodes by asymmetrip adsorption on natural dissymmetric.
adsorben'ts. Dokl, AlVt~R 339 no.5:1M-1113 Ag.; 161.
(hft 14:8)
1. Institut organicheskoy khimii AN WSR,, g. Kazant, i
Inotitut organicheskoy khimii im. N.D. Zelinokogo AN SSSR.
Predstayleno akadem2om.B.A. Arbuzovym.
(Arsonium compounds) (Adsorption)
8/(169/62/024/002/008).'008
B-110/144
AUTHOR: Khodakov, G. S.
TITLE: A case of.mochanochemical quartz dispersion
PERIODICAL:
Kolloidnyy zhurnalt v. 241 no. 2, 1962, 236 237
TEXT: Mechanical and chemical effects werekoombinod in an attempt to reach
maximum silica dispersion. Deformation of the crystalline structure,by
grinding increased the reactivity of silica with calcium or magnenium oxides,
in dependence on the duration of the process. Hydrosilicates formed at
normal temperatures and pressures. Quartz powders ground to < 6m2/6 with
an M -10(M-iO) vibrating mill wore studied. Small blocks wore formed from
aqueous pastes with 9 parts by weight of SiO and'l part by weight of 11g0t
2
then washed with hot aqueous acetic acid to remove hydrosilicates.
Powders of '> 200 m 2 g specific surface, approximate ly 30 times the initial
value, were thus obtained. The particle nuclei remained crystallin(f
whereas the amorphous sh'all passed over into the J~Ultvate * This behavior
may be applied to adsorption and catalysis. Electron microscopic siltudies
showed the dispersion to take place in partioles of several hundred1ho/k
Card 1/2.. oe
S/020 ~63/148/003/021/031'
B106/11160
AUTHOR:
TITLE: Determining.the specific surface or highly disperse powdere
by rarefied gas filtration
PERIODICAL: Akademiya nauk.SSSR.. Doklady, v. '148, no. 3, 19639
58.4
TEXT: Discrepancies appedi in,the results'of 9:peoific surface
determination df priessed" powder- samples even at high pressures.
Phey
are probably-due to Xhe fact that the structural features of the ~poroue
body are not adequately considered. Here, the specific surface in
..expressed on the' assumption that the gas molecules passing throug4 them
pores undergo a greater number of colligi one with the walls of tho pores
than with other molecules. The experimental work is then reduc~d.to
determining the capacities of the sample at two different gas preasures.
The specific surface resulting from these data was found to be independent
of the porosity of'the sample.. There are 3 figures.
Card 1/2
KHODAKOV, G.S.
Effect Of fine grinding on the Physicoohemical Properties
of solids. Usp. khim. 32 no,7:86D-881 Jl 163.
(MIRA 16:8)
L VBGBOvuznYY nauchno-isoledovateltakiy institut novykh
stroitelinykh materialov.
KUDI,YAVTSPVA, N.L.; KHODAIXOV, G.S.
Effect of the additioner of surface-active substances on the
diminution,of clinker. Dokl. AN SSSM 156 no. 2:437-440 My
,64. (AURA 17:7)
1. Vmesoyuznyy nauchno-insladovatellskiy inntittit navykh stroi-
tolInykh materialov, Predstavleno akademikom P.A.Hebindarom.
KHODAKOV., G.S.
Mechanical and chemical dissociation of liquids on freshly
formed surfaces of solids. DokI. AN SSSd 156 no.6:1416-1419
A 164, (MIRA 17:8)
1. Vaesoyuznyy nauchno-iseledovatellskiy institut novykh
stroitelInykh materialov Akademil stroitolletva i arkhitektury
SSR. Predstavleno akademikom P.A. Rebindorom.
E='MANq L,I.j
sedimentation analysis of disperse systems with oontinuous
recording of the weight of accumulated dep(mit in the eantriN &I
field. Koll, zhur. 26 no*3%380-385 MY-Je 164. (MIRA 17T
1. V89907uznyy nauohnO*_iseledovatel'skiy institut novykh.
stroitellnykh materialov) Moskva.
KHODAKOV G S - FDFLIYAN, 1'.1.
"
Float-t~Te photoelectric recording devIee for analysl# of varlanoe
!n a centrifugal fJeld. Zav. lab. 30 no.Elil.024-1025 164.
(MIPLA 1130)
1. Vseso),u?nyv. nauchno-Issledovatel'skly inatitut novykl- stroitell- .
nykh materialov.
nit,
KHODAKOVp G.S.
Mechanical and chemical dissociation of liquids on freshly
formed surfaces of solids. Dokl. AN SSSd 156 no.6:1416-1419
is .164. MRA 17:0
1. Vsesoyuznyy nauchno-issledovatel'skiy institut novykh
stroitelInykh materialov Akademii stroitel'stva i arkhitektury
SSR. Predstavleno akademikom P.A. Rebinderom.
-KHODAKOV, G.S.
Laws governing gas fl6w.through finely poran bodies. Dokl. AW
SSM 163 no.2050,353, J1065. (MIRA1,180)
1. Vaesoyusw nauchno-iseledovatel'skiy institut novykh atroij.IQl'nykh
materialov. Submitted-December 31p 1964,
ACC NRI AP SOURCE CODEs UR/0413/667-0-00761-Q?002T/002T
INVENTOR: Khodakovp G. S.
ORG; None
TITLE: A method for producing high3y dispersed silica. Class 12, No. 181634 [an-
nounced by the All-Union Scientific Research Institute of Nev Structural Materials
(Vseso-yuznyy nauchno"iseledovatellakly institut novykh stroitellnykh mater:1alov)]
SOURCE: Xzobrateniya, promWahlennyye obraztey, tovarnyya znaki, no. 10, 11.?66' 2T
TOPIC TAGS: silica, quartz, magnesium oxide, calciwa-c-xide
ABSTRACT: This Author's Certificate introduces a methcA for producing highly.dispers
silica from pulverized.quartz sands The process is simplified by adding mWesium
oxide or calcium oxide to the initial material and.treating the mixture wilh water
after grinding. The solution in then allowed to stand and mineral acid is used for
Femoving bVdrooilicates.
SUB,CODE.- ll/ SUBM DATE., '26Nov63
Card 1/1
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KHOrTAMV, N. Dw and ANICHKOV, N.N.
Ueber die Vitalfarbung der oberen Luftvep und dea Gehororgana bei Keninchen.
Zeitschr. fur Role-, Nasen--und Ohrenheillcunde. 37, 4, 2b4_29ij 1935.
NARAVTSEVICH, Zizioviy Abramovich; KHODAKOV, Naum Moiseyevich-
nE", M.I., red.
[For the participant of a tourist trip) Uchastniku tu-
ristskogo pokhoda. Moskva$ Meditsina, 1964. 39 p.
(MIRA 17-5)
ZAKWOVp Ye.D.; GURIYEVy 1.1.1 SOL40V:YBVA, V.V.; DRONOVA m.p.;
GILIDENGORN, I-S.; KHODAKOV
p P-YO I DONDAREVt B:I.
Nonuniformity in continuously cast ingolm and ito effect
On the quality of semifinished productao Alium..splavy
no-3:371-382 164. (MIRA 17.-6)
KRODAKOV V.
On the road toward the improvement of fairming (from the Regional
Agricultural Conferenee in Rostov-on-uon). Zemledelie 23 no-10%
85-88 o 61. (?.IRA 14:9)
Province-Agriculture)
KHODAKOVY Vop lmd*tekbn,nauk
ImPrOVD-ths Operation of water works for fire fighting* -Pozh,idelo
7 nool2tl7-18 D 161, (MIRA i4tn)
(Fire GAinction-Water supply)
YjiODAKOV., V. it.
I:nteF,rals
Dissertation: "An Intergral 0ith a Small Range." Cand Phys-Math 3ci, acctmnics-
Mathematics Faculty, Moscow Order of Lenin State 1) imeni il- V. Lomonosov~ 26 Mar
54. (Vechernyaya Moskva -- Moscow, 16 Mar
30: SUM 213, 20 Sep 1954
L 16316-65 WF(e)/DM(k) WT(M) VF(c)1M(0)-2APR1=(b)-21ZWP(b)
pt A/Fs /Pu-4 IJP(0 /AIPWL 'WW%
-6/Pr YS, IAT/W
i ACCESSION NRt AP4049532 B70089 64/017/005/0329/0335
AUTHOR: MillionshShikov, m_p.j overdtoiteli, 1. (;.t Akramov,
A. S.1 Gorlov, L. V.1 Gubanov, Yu. _)Li YtfremovL_A# ?A,]- zllm~v~_r_
Ivanov, V. Ye.; Kovy*rZT117 V. W~ MMtelov. Ye. A.i KosovskiX, V. 041:
X5-Wa_r_RTn_,W. T0.1 Kucharove K. *kin. So P-.1 Markin, V. I-i
A PozTn_y_&5Zo_v, A-ff. f , Ponoma QV.7 .1
rev-Sten ALA
6-a-marin, Ye.-N.1 Serovs V. Ya.i Usovo V. A.p J~adln# V. 9.
V. v.; -yakutovich. m. v.j Modakov, V. A.1 Kompaniyets,_. C;. V.
_rT TL
The ItHomashka" high-temperature reactor- converter
Sounat Atomnaya energiya, v. 17, no. 5# 1964# 3 129-335'
TOPIC TAGSt nuclear power reactor, 'reactor fdaoibility studyt ro-
search reactor# thermoelectric converter/Romash1ca
ABSTRACTs The authors briefly desdribe the construction, parameteralp
test results, and operating wtperience of the *Rwasbka" reactor-
Cora
L18316-65
ACCESSION NRs AP4049532
converter unit, which has been in operation at the Kurcbatov Atomic
Energy Institute since Au st 1964. The fuel used is uranium di-
carbide enriched to 90% PIS,. ... hita:Cd beryllium are used as.
reflectors. Electricity in generate3 By silicon-germanium semicon-
thermocouples.distributed on the outer surface of the reflec-
tor and connected in four groups which can be connected in series
lor in parallel. The temperatures of the active zone and outer our-
'face are 1770 and 1000C, respectively. The power ratings are 0.50--~
0.80 kW electric and 40 kW thermal, the maximum current (parallel
connection) is 88 A, the neutron flux is 1013 neut/cM2 sac in the
center of the active zone and 7 x 1012 on its boundary. The reactor
has . negative temperature reactivity coefficient. The equipment
.his high inherent stability and requires no external regulator, and
little change was observed in the thermocouple properties after 2500
'hours of operation. Tests on the equipment parameters are continu-
ing, and the results are being analyzed for use in future designs.
Orig. art. has: 8 figures and 1 formula.'
Cwd 2/3
MILLIONSHCHIKOV, M.D.; GVERDTSITELI, I.G.; ABRAMN, A.S.; GORWV, L.V.;
GUBANOVP Yu.D.; YEMMV, A.A.; ZHUKOV, V.F.; IVANOV, V.Ye.;
KovrRZINI V.K.; KOMIDV, Ya.A.; XOSOVSKIY, V.G.; KUKHARKIN,
N.Ye.; KUCHMOV, R.Ya.; LALYKIN, S.P.,- MULKIN, V.I.; NECHAYEV,
.Yu.A.; POZDNYAKOV, B.S.; PONOMAREV-STEPNOY, N.N.; SAMARIN, Ye6,N.;
SEROVI V.Ya.; USOV9 V.A.; FEDIN, V.G.; YAYOVLEV, V.V.; YAKUTO'TICH,
M.V.; KHODAKOV V.A.; KOIGIANIYETS, G.V.
Higb-temperature reaotor-conver ter "Romaabka," Atom. anerg.
17 no.5029-333 N 164. (KRA 1702)
/N v V v
Temperature-Field Of Reactor Fuel Elements at Non-.Uniform Heat Removal",
bY V- A* Khodakov and No S..Khlopkin.
Report Presented at 2nd UN Atoma-for-Peace Conference, Gelleva., 9-13 Sapt 1958,
KHODAKOV) V F., Engr
USSR/Metals - Cutting
Aug 50
t'Semiautom~tic Machine for Cutting Circular Flanges," Engineors S. A. Golideiiburg,
V. F. Khodakov
"Avtogen Delo" No 8, pp "1-22
Describes semiautomatic gas cutting machine for mass production of pipes in ithip-
building industry. Machine is designed to cut flanges of 50-&)0 mm diameter from
steel 19 - 30 mm thick. One advantage is possibility or cutting flanges at very edg(
of metal sheet, bringing waste to minimum. Productivity Is F5 pieces for B hours.
Operation of four machines for 11 years demonstrated dependability.
FDD PA 167T71
KHCIDAKOVS V. F.
Moscow lust of Water Economy Engineers imeni V. R. Villyams. Chair of'
Hydraulics. Moscow, 1956.
KHODAKOVj, V. F.- "On the union of a turbulent stream with a calm one in expanding stream,"
Moscow Inst of Water Econovq Engineers imeni V. R. Villyam. Chair of Hydraulics.
Moscow, 1956.
(Dissertation for the Degree of Candidate in Technical Sci(mces,)
SOt Knitbneys Letopis No. UP 1956.
IMODArOV, T.F., kand.tokhn.nauk
------ - .
UdOn Of turbulent and gtream in sudderar enlarging obanrial.,S,
N&Uchoxapo MIIM 20:1 8-214 158, (MIRA 13:6)
(HydraulloB3
Z -
KHODUOV, V., kand.tekhn.nouk; SHUTAIM, M., insh.
Usefal textbook VAPractical b7droulice In fire-prevention'
by N.A.Tarasov-Agalakov. Reviewed by 7,.Xbod&kDv,
H.Shuvalov)o Tosb.delo 6 no,8,02 All 166.
WHA 13$8)
Ofire prevention) (Wdraulics)
(Urssov-Agalakov, N.A.)
KHODAKOV, V.G.j AVSYUX, G.Ae. otvzed.j OGANOVSXI]ro P.N., red.
[The Arctic UrallPoliarnA.4ral. Moskva. (Its Materialy-
gliatsiologichookikh iseledovanii). (snow coverlsueshnyi
pokrov. 1962. 129 p. (MIRA 16t2)
1. kkademiya nauk SSS R. Institut geografit.
(Ural Mountains--Fdmoff)
KUDDAKOVt V.00; AVSYUKt G.A., otv.-xed.; qGANoVsrTx., P.N.,, red..
(The Arctiv UMI]POllarnyl Ural. Moskv4. (Its Materialy glia.,
tsiologichookikh iselsdovanii). [Ablation.~Runoff]Abliatsiia.
Stok. 1962. 140 p. (MIRA 16:2)
1. Akademiya nauk SSSR. Institut geografil,
(Ural Mountaine-Glaclology)
(Uml Mountains-Runoff)
KHODAKOVf V. as ~
Possible error in the measurement of.precipitation Meteor. i
gidrol. no*6t5l-52 Te 164 &IRX 170)
XHODAKOV, V.G.
Dependence of the t9tal.ablation.of the surface of glaciers
on the air te.mper.ature, Mteor, i gidrols fio*7:48-50 J1 165.
(MIRA Iu6)
I T-+4+-+ Am QQQR
ALL, MKI AR6016024 SOURCE CODE.; UR/027106/000/001/B030/1030
AUTHOR: Khodakov, V. Ye
TITLE; Use of an APM- I typewriter in computer output devices
SOURCE: Ref. zh. Avtomat. telemekh. i vychisl. tekhn., Abe. IB214
REF SOURCE: Avtomattka t priborostr. Inform. nauchno-tekhn. ob., no.
2(22), 1965, 31-33
.39
TOPIC TAGS: digital computer, printer, automatic printer/APM-1 pAnter
ABSTRACT: The automatic APM-1 printer dc-veloped at the Scientific Research
Institute of Control Computers (NlljjpE~~~ikh VM) is described. Since
its parameter printing is done line by line, data concerning each parameter are
arranged in columns making it possible to rapidly analyze the course of the
process. The printer operates according to the principle of "quick printing"
(the type carrying wheel rotates at a constitnt speed). During printing, an
electromagnet actuates the hammer when the selected sign passes underneath it.
At the moment of printing, the paper tape stops and then advances on 41tep.
Because the typewriter contains 24 characters'. a 5-digit binary code is requirec
NRI AR6016024. 10
The typewriter and digital computer are coupled by a circuit using ferrite-diodc
elements and transistoirized amplifiers. The control circuit uses RMUG -type
relays and telephone-type keys. The functional diagram of printing control and
the electromechanical diagram of the control device are described, State tests
of the experimental model of the typewriter and turo years of test opeimflon havt
demonstrated its high reliability. Orig. art. has: Zillustrations. r1'ranslation
of abstract] [DWI
SUB CODE: 09/
2/2 bb
SOURCE: Avtomatika i priboro-stroyenlye, no. 2, 1965, 31-33
TOPIC TAGS: computer printer, on the ny prAnter / APM-1 printer
,!ABSTRACT: The developh-4rit and test results of the firvt Soviet on-the-fly
printer APM-1 are reported. "he high-speed line printer uses a continuo,,2f,'-,,-
rotating print wheel carrying Z4 characters, they are i9elected by a 5-digit
i code. Fast-acting hernmers prInt the characters. The printer Is
the computer via a control unit Arhich comprises ferrite-diode
and semiconductor arnplifllert3. Functional and principal -irr,o#F-
presented and lhvir ig britfly explained. D11TIng the lpoo-vpi,
of an APM-1 on-thp-fly ;;r*lnter prototype, no failure of a nia or component
occurred. Orig. art. bar,: 2 figures,
Card 1 /2
AccmsszoNNR. A-P-5,016-
087
ASSOCIATION:
nono
00
ENCL., oo
StM CODE' DP
NO REF Soy; 000 ,
0T_l-(E : ()
.
-oo .
...
..
71- MR
co'd 2/2'
CHURA.NOVq S.9 pr&pcdavatell; IRODANDV,, Yu., prof.1- CHERTKOV, I,,
propD&vatell Wall
Problems and experiments in chemistry. Nauka i shisni 30 no-4:
a 98 Ap 163. (NnA 16t7)
1. Mookovoldy gosubrat"nW Uni"raitot (for Ohuranov).
2. Ufadra khWA. Hookwakago avlatelonnogol ardena laniza
institute, in, Serge Ordshonilddso (for Mdakov), 3. Hauchno-
issladovato2lakiy inotitut obabcbege i politekboichookogo
ebrasovaniya.Akadenii podagogichookikh nauk ASFSR (for Chartkov).
(Chemistry-Problemaj, exercises,, I%tao)
MINACHEV, KHODAKOV, YU.S.
Xinetics of hydrogenation of the viiqyl athor of A-(diethylamIno)
ethanol and vinyl phpnyl ether on 1% Pd/41 0. Izv.AN SSSR Otd.khim.
nauk no,/+.-722-724. 4 161. (KIM 34
I. Institut organicheskoy kb'mJJ im. N.D.Zelinskogo AN SSSR.
(Ether) (Hydrogenation)
HINACHEV, Kh.M.; MARKOV,, M.A,; KHODAKOVp Yu,$.
Effect of gamma rays on the catalytic activity of platinized
aluminosilicate. Izv. 1% SSSR. Otd.khim.nauk no.7:1227-1230
ji 161. (MIRA 14:7)
1. Institut organicheskoy khimii im. N.D. Zelinskogo AN SS$R.
(Aluminosilicateo) (Catalysis). (Gamma*rays)
MnUCHRO Mi.M.1 KBOD&KOVO Tu.00
Prect of game rays on the activity of,platinum-contLining
'64telysta.'~ Isvo* AN SSSR, Otd,)dU.=* no,8tl430-3432 A
1610 (MIRL 34o8l
1. lutitut organiobookoy khtaft im. $.D. Zolinakogo AN SWIR.
(Gium r'ayo) (Catalysii) 03.atimm)
KHODAKOVp YU.S.; MINACHEVO Kh.M.
Kinetic relationu of hydrogen peroxide decompositi on or
~"-irradiated end nonirradiated lanthanmu hydroxide. Zhur.
fiz. khim, 37 no,11:2445-2450 N163. (MIRA 17t2)
1. Institut organicheskoy khimii Imeni Zelinskogo, kN SSSR.
1. 0~-,I 4 r
J1 1*._Tj I.n
ACCESSION NP
i Tr7pt iitivt AvTwri. Pn 1 -_4 7.. Pt' n
Pv
LF5005775 S/0195/65/006/00!
.AUTHOR: Mina~-.hev, Kh. M., Khodak-ov Yu S
ITTLM Slt~, (~v cf Cd-tal-vrtic -Drcre-rties of tht 'Lam 07--rth eleven ts in t",
'SOURCE: Kinetika i kataliz, v. 6, n~o. 1, 1965, 89-94
MPIC TACS: ram earth element. butane. transformation, lanthanum. ceriun,
pras eody-nd Var, 7 i ti", -. arna r ium, hoirti urn, erbiu,-r, dyspm-~s i Uir, vr,' -. iT,
terbium
kBSTRACT ~'i r~-jletion-f 'Low and static methods were used to investigate 'he
;1! 7 h ea t a iy 1, 1
Oxide we z~- ~-~~udied in thk) trans forviat ion of propylenev
Prepam-rl ,,a-i!.ysta were heated in a muffle fnrnace at 6500 for !~c; ~-s
~,oth wit') a flow-circulation unit and a static urlir (5ee
o~ tnv. Enciosure- T-Ie xiretics of the reaction i.. all r:ases wez~ , 6-1 -t
........... ..
L LI-9581-65
1ACCESSION NR: APS005775
Ian equatior, of the first order. Specific rates. preexponential 4-actoi-c;_ and
I
i e S f v _-C- it- 1)-~ '~ f,l? d-, I *hC txlde
-,e St- ?s e 3,,- ~i rS express Illeir i~
particip.~iting in -he experimrtal work." Orig. art. has: 6 J
;equation.
!ASSOCIATION! I-pstitut organichankov khimii imni N. D. Zflinskopn AN
Institute of
SUBMITTED: 2GJul63
NO REF SOV: 005
Card 2/*4
ENCLi 02 SUB CODE: 1*
OTHER: 005
!n-r-
------- --- --- ---- -- -- ------
*_Xua$,Oj MIMCHEVp DoM61 STMIGOV, O*D.
Kinetics of the catalytic dehydrogenation of twitene to
butyUnes. Dckl. AN SSSR 165 no.2:344-346 N 165.
(MIRA 18: 11)
11 Inatitut organichaskay khinii im, W.D. Zelinskogo AN SERSH.
Submitted April 12t 1965.
KHODAKOV, Yu.V.; MURAVLEVA, T.M.; MILICI.I;-,I.'XO, V.V.
Determination of chromate and dichromate oJinultaneously. Zav.ls *b.
29 no.8:929 163. (IldRA 16:9)
1. Moskovskiy aviatsionnyy institut imeni S.,Ordzhonikidze.
(Chromatea) (Dichromates)
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AN Wbh& p is zl~;Iw to viola VC-11101.
j fts tetrabe", xn in volvias diftartka of % 0
the -sm=sbcwt4D*. InteraM."UM10-
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vrith Am, ~ smslef boom to tbdr DaturW wahw, 7U L r* 0
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so lit anhydridn. X.O* (X - Cl. 8, 11,S0, tbm imoditions
art fulfilled When all (SKIP) or put (3 tPoith PA. 2 in SO,
and I in CIA) of the 4 0 aturns gmitord aniund any tmic
so X slow allp" cow into the brintitiop" of trorshelfron. goo
so surtounding otlstrir X atoms. In thor caw of CWh, oilly
flue type of simple. nooputrinctfor mol.. vil, G*CKxxh. %o
a t- PK"*ibk. With Uh, V01YU10% MAY 101`111 01119f filikEW
(ra,oily lubibk# vlAxt& a0h) cc Wall. thread-adtor violp.'
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4:r Amall
so itnit%~. tJ 11#0 j6ibishly sal, tbo: valrairict. at the0of I lit
thitinoi. Thili is In hanotmy with iliv catalylitt actiLin .4
liao-ft of 11,0invoilvorttins 04io, into#-**),. Piorllk~l *,so
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of a totuAlsomirois built up by joinuil; ~ Wrothextrooi,
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that twis irtroslimhuin Is joinord at 3 %virlikestriAh our %vt - goo,
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otxplains the cm with which PjOa I* oxidin4 too PgO. W.
CA. Up 6418) and the obwo,tv voinpkxitics li%vult-rd Ia
tiles4opwim "*ctlou of I'M with IIA). W. K-iry
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