SCIENTIFIC ABSTRACT OSIPOV, O.A. - OSIPOV, P.M.
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SCIENTIFIC ABSTRACT
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ACCESSION KR: AP4019498
conductance decreases with a decrease of the dielectric constant of the solvent,
except for nitrobenzene in which the solubility and electric conductance are
insignificant. Thus the electric conductance Of NbOC13 depends not only on the
dielectric constant of the solvent but also on its chemical nature. The solubility
in dioxane (dielectric constant a 2.18) is greater than in chloroform (dielectric
constant Z 4.98), and greater than in nitrobenzene and in acetone. The stability
of methanol and dioxane solutions of NbOC13 to hydrolysis is indicative of the
formation of strong molecular compounds or solv tee between KbOC1 and the solvent.
The dipole moment of NbOCI 2 3
3 in dioxane is 4.80 O.ID. The obtained data was
interpreted from the standpoint of chemical interaction between WbOC13 and the
olvent, the oxygen of the alcohol or dioxane or the nitrogen of the pyrLdloo
:
ctirkg as electron donor, and the niobLum stom as the acceptor. A plot of the
conductance of NbOC13 in the alcohol& as a function of temperature shows a straight
line function with methrool. Curves for propanol, butanel and heptanol go through
10 maximum, the Lower -be alcohol radical and the higher the temperature at which
the mxftm-a conductance occurs. The dielectric constant, refractive Lodex, density
and molar polarization of various concentrottons of MOCL3 in dLomene are
tabulatede OrLse art. bass 4 tables and I ligurs
card 2/3
ACCESSION: NRi AP4019493
ASSOCIATION: Rostmakly-na-Doom &*sudArstVo=V*y wAveraltot (Rostm-ca-Don
state University) I
SUEM : 077ob63 IDA73 ACQs Uwwr64 E=: 00
SUB CODES CH . WD RZY SOV: 002 or=: OD6
Card 3/3
CSIPOV, O.A.; MINKIN, V.I.; KU;AAN, ",A.
Dipole mnment3 r~n:! *r.- 31-r,joture of (>-hp~roxyaldehy-,e f-i-ni-Is.--Z.
khim. Y? n(,.'314')-)-l4)9 JI '~)3. M:RA 1-:,-)
1. Rostcvski.j-na-L))mi vvirditrstvennyi univerq1tet.
GAYVORC'IISKIY, V,I,. oSjpnV, (.A., SHAIGIOD"LLIN, H,R,
Infrared sp~ectra -)f thorlum, zirconlum, and uranyl complex compounds,.
with 8-oxin Find trlbut.yl phosphit,2. RadI,)khIr.,dIa ~ nn.2:244-248
161. (MITU it): ic)
JDAM MAI 0 G. N.1 ]RABIN Ye. P.; ROZENDERG, B. A.; OSIFOV, 9, A.;
v I
KASHIRENINOV, 0. Ye.
Catalytic acetylation of Boma polymerB. Izv. vys. ucheb. zav.;
khim. i khim. tekh. 5 no.5:804-807 162.
(MPA 16: 1)
1. Donetakoye otdelenlye Inatituta organicheskoy khimii All
UkrSSR i Roatovskiy-na-Donu gosudarstvennyy univerBitet.
(Polyywrn) (Acetylation)
OSIPUV, O.A., SEMLNOVA, 1.14.
Infrared spectra of t,',o =lecular compounds of indiur.
chlorides with nitrogen-contiLinir*, or(;anic substances.
Zhur.ob.khim. 33 no.3:720-724 Mr 163. (14DU 16: 3 )
1. Roatovskiy-na-Donu gonudarstvenny-, universitat.
(Indium chloride)
(Nitrogen coml,owids-Al),norption spectra)
]a LWA lonr.~
T
S/186/63/005/002/003/003
2075/9136
AUTHORSs Guyvoronakiy, V,I*q Osipovq O&A*9 and Shegidullin, R,R*
TITLIZ: Infrared spectra of complex compounds of thorium*.
zirconium, and uranyl with 8-hydroxyquinoline and
tributylphosphate
PERIODICALs~Rsdiokhimiya, v.5, no.2, 1963, 244-248
TEXT: The authors invdatigated the structure of the complex
..,compounds by studying infrared spectra of the solid internal
:complex compounds dispersed in vaseline. For Th and UO in
addition to complexes ONJ', the
Th (C H ON)4 and H
9 6 U02(C9 6 2
complexes with the composition of 115 and 113 were also synthetizede.
The spectra of the complexes and those of 8-hydroxyquinoline in
the frequency range 700 to 3000 cm-1 indicate that the double bonds.
,in the aromatic rings conjugate to an increased degree in the
complexes. The conjugation iz proba'aly transmitted through the t7%
coniplexing metal. There are three strong absorption bands in the V4
.spectra of the complexes in the region of 400 - 700 cm-1, which
are not present in the spectrum of 8-hydroxyquinoline. These bands
Card 1/2
S/186/63/OD5/002/003/005
Infrared spectra of complex B075/2136
shift towards longer wavelengths (from 485, 505 and 605 cm-1 to
495, 515 and 615 cm-1) on passing from the heavy metais to Zr.
Differences were also found between the absorption bands at
70D-825 cm-1 of the complexes due Apparently to differences in
their crystal structure. The strong absorption bond for the U02
complex at 917 cm-1, absent in other complexes, in ascribed to
..the asymnetric vibration Of U02 group. The spectra of the
the metal chlorides and tributylphosphate (TBP)
mixtures of
indicate that a molecular compound between the metals and TBP is
formed via the oxygen in P - 0 group.
There are 3 figures and 2 tables.
SUBIKITTEDz July 5, 1961
OSIPOV, O.A.; KNKIN, V.I.; KOGAN, V.A.
Effect of the chemical structure of organic complex-forming
anions on the polarity of complex compounds. Zhur. fiz. khim.
36 no.4t889-894 Ap 162. (MIRA 15;6)
1. Rostovskiy universitet.
(Complex compounds)
5/137/6a/OO0/0!2/065/O85
Aoo6/AIOI
AUT11ORS Lesnykh, D. 'S., LIfshitso Ya, G,, Onipov, 0. A., Smovt, M.
TITIS: An electrochemical method of metal sulfonation
PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 12, 1962, 131 - 132,
abstract ~21808 ("Uch. zap. Rostovsk.-n/D. un-ta", 1959, v. 60,
15l - 172)
TEXT: The authors studied the effect of factors upon the quality of a
forming surface layer in the electrochemical method of cast-iron and steel
sulfonation. These factors are: bath composition; metal type used "or the
cathode specimin (part) prior to sulfonation; current density on tY anode;
bath temperature; duration of the process and-throwing power of the oath.
Aqueous solutions and melts of culf'ur-containing salts were used as sulfonation
baths, e.g. CH COOK 50%, CH-COONa 30%, Na2S 10% and KCNS 10% with an opera-
3 203
tional temperature of the melt as high as 260 - 2400C, and a 10% aqueous solu-
tion of Na 2S203 and KCM in a 5 to 2 ratlol; the 6ulfonation temperature is
50 - 750C. To obtain a strong and elastic sulfonated layer, the specimens were
Card 11'2
OSIPOV, JI.A.; M-II&IN, V.I.; EASI~IRENINJV, O.Ye.
of resins obtained ty
of b-nzy' i- a--rd In *.~e irpsence
of chlorideF ' olementz: of I)-,c f)urt~ 7roup. Vyso~ )m. Foed .)
no, 12: 17?14-' ""D I,' i . ( m ; Iti, 1: .: i ;
I . Ro-stovs~,,,-v -)sudarstvf-.nnyy univerFiteT .
( (,,~ i Synt~-t i ~: )( Tol uent- )( Nap~ thii I en,- )
OSIPOVII O.A.; ARTLVDVA, V.M.1 KOGAN, V.A.; LYSENKO, Yu.A.
Mpole moments of the complex compouDds of tin, titanitm, and
zirconium tetrachlorides with dibasic acid esters. Zhur.ob.khim.
32 no.5:1368-1373 Pq 162. (KIRA 15:5)
(Complex compounds-Dipole moments)
OSIPOV.9 O.A.; K, SIIIRJIII;C'V, Ye.
Interacticn of TiCl and AlC13 vith organotin compnimds. Zhur.-
ob.khim. 32 no.6:1','f7-1-123 Je 162. 0.11IL"
1. 'tostovskiy-na-Donu gosiidarstvermyy universitet.
(Ti tiniixi chlorides) (Aluminum chlorido)
(Tin organic compounds)
IGNKINJ, V.I.; 06IPOV, O.A.; KOGAN, V.A.
Dipole moments and absorption spectra of o-hydroxyaldehyde anilo.
Dokl.AN 555H 145 no.2:336-339 J1 162. (Hl-?.A 15:7)
1. Rostovskiy~na-Donu gosudaxstvennyy universitet. Predstavleno
akademi.kom B.A.Arbuzovym.
(Schiff Bases-Dipole moments)
OSIPOVP O.A.; PANINA, M.A.; WOMMINUV, 0.1e.; NEMIROV, G.V.;
---- -- SJ~Ilw J, I. K.
Dielectric constant of binary
components. Zhur.ob.khim. 31
(Systems (Chemistry))
liquid systems consisting of polar
no.10:3153-3160 0 161.
(Milu 1J.: 10)
(Dielectrics)
OSIPOV, O.A.
Relation i , t-~ein t~,p dielectric -instant and mean UIr o] F
in mixtures of p)] a r I iqUidS . UCh.7aj-,. HGU 141:3-2D ' ~LP- -
( vdlijk I --: I )
(Dielectric constants) (Liquids-Dipolle moments)
OSIFGVI O,A
Dipile ,n,3zonw 11, 1, ix. ;,I C-9 if 'A CCIOn Z,!3 of t h C. '. (.14 j~ 1, -),1 i- ~ . t ,, (-,
D.1,14endeleov perl,)(Ar jy.9tcTi, Ucn.zapALU nr).bO:13-J6 '59.
(,~L.A i,.:io,
(coraplex) (Compounds- Dipole monents)
LESNYKH, D.S.; LIFSHITS, Ya.G.; WIPOV, O.A.: SIMOVT, M.S.
Electrochemical method for the sulfidization of metala. Ucb.zap.
RGU no.60.151-172 159. ( ~ /.D-A 14 : I -~ I
("40tals) (Sulfurization)
KOVALENKO, F.N.; BAGDASAIM. K,Nj_.g~FOY_, O.A., dots., otv. red.;
SHKOHINOV, V.P., red.; FAVLICTM-KC, 17-.T-,,--tekhr,. red.
(Physicochemical r.-.ethods of analysis; prnctical handbook' Fizil,.o-
khimicheskie metody analiza; prakticheskoe rukovodstvo. Rostov-na-
Donu, lzd-vo Rostovskogo univ., 1062. 349 p. (MRA 15:6)
(Chemistry, Analytical) (Electrochemicnl analysis)
S/079/62/032/006/001 /006
D202/:)301t
'~TY`ORS: Osipov, 0. A. and Kashireninov, 0. )~e.
T i T 1, 4nteractions of TiCI 4 and Al'~l 5 with Organic
pounds of tin
i'_"tIO~)ICAL: Zhurnal obahchey khi.,.rAi, v. 32, no. 0, 1717-
1723
T.7XT: Reactions of Sn(C 2H5)49 Sn(C2H5) 3c1, Sn(c2 H5)2Gl2 and
2.115)CI3with TiCl 41 ZrCl 49 ThCl4 and AlCl 3 were carried o,-:t to
investigate the structures and catalytic properties of the re-
s,ilting complexes. All these compounds react violently when mixed
directly with TiCl 4' Only the first two give vioient reactions
with AlCl 3; none of them reacts with ThC 14 and ZrC 14 . The reac-
tions with TiCl 4 and AlCl V when carried out in benzene, proceed
smoothly witbout the formation of resins to give stable bimetai'Lic
Card 112
- USILOV, O.A.1 FJ~ETE.';K., Yu.J.
Reaction of zirconlw. chloride with rjrgan~c add -tivea na-,r',ng
vurioun functional groupa. Zhur.ob.khii,. 31 r,0.8:2451-2456 Ag
161. (MIRA 14-8)
(Urconim chloride)
(Zircomwn organic compounds)
N C, s o v
Kc%
,f(-vst K r a t
T' Anc z i n e r. it- F7, t- n
qua. i t c,ri I ro x i i m s r, t h l
Re fe i r. i, r r, K r. i rr.q
Eh', 07". CAL
Z ft I V.
t I oz a t T 1 ~i 1 t.
f7 i t-r i n t r. p t a r. e, Ln tn,- c r, t i a
-n f T r. I -
. ~.e a: . c., D' ,n t-- r r c s 9 qr, 1 1 1nF
i
t t t t T
Y- 1'',
x l sk I ,,, 11.1 tf,
51 e DI T Dki r a ri -
T irl '71 .T
At
C F, ri
A A
Al T- Ll~ ~R:, K va. c- 7, r. P N
1', 1 !; v Y-
:7LF F, "I
I v it
(V i:!, i
r~ fir- r, 11, ''ma r I J~-, f
1,~, s and t 1.1
7)
I I
!."il 1 rl ilds, I-I'l 11, 1 f wh I h 111, 1 1 hav, t Ich,
lit !f Ii!%~,; f o-!,~Pd
TJ7 1~
on
thp a intil a'im' -K- rv-
ng r-I,
Tht, r-c m,e rofpvon~ -J,
Ar p e *, e i-t ns I -i n
Lysk2i'111, Yu.A.; OSII'C,V, O.A.
lnteracticn between titanium tetraohloride and chlorcmethyl
acetate and ethyl stearate. Zhur. neorg. Mim. 6 nc.7,
1656-1661 Jl 161. OMIRA 14:7)
1. Kubpns)-iy seII3kokhozyayotveruiyy Institut, ka-fedrt
organic -Aov fiziche,~koy ' kolloidnoy kh1r,11.
(ritanitur, e-hIorJJn) (Est.erto
I W ~ I
3' 1,10" 1, , 1~11
I UTHORS 00 1 poy . u A MI I ~IR I I) n I r.' TI I 1~ v
T AITLE Phy a i c oc In -~m i c 1 1 pr -)pert i f22 )f res I TIS ob t~A i ri~ d t~.)
s , t I ,, n ~) I b r, Z.~ I _' ~" 1 u - i (I f, -, r - c h I D r j m (~ t t, ~ I ri a r: -i
C h I D r I (1 (-8 o t' I e m (-- r, t E3 - f t f,, o t -,urth ~ru,,p
P-11( I C L I CA L i VY80KOMC,l ek 1 j a r n.,,.,,, t! i uy ,~i i rien ly a V r,
1774 1 - L, I
TEXT t T h e purpose of tnis study -was t(~ obtain cial a cr, tK- a t v
h a I i d e s o f ~!~_-ments uf t n t, f o tA i t h R r o u 6 1 C I T i C I - 6eCl,. ZrC! a n
ThC1 4 ); ~2) tu compare tnt ~olypheny lene :,,,ethyl res ins obta Ine(,. b
Condensation of benzjl cr, I u r i q e im i t n t h p o lj n a p n t ny m t-t h~ I r e
tained by polycondensat ion )f I (; ri I o r Qm f,,i , nn ; h t ha I '~-ne PO , j -(, FiGI, ~.S a
t ion ~f ben,-.jl chloricle was achieved 3t u mollar rat io -sita lyst, - t ~. 11 '*., ~
ch I o r i d e - ' , ~,O The yiela ~Yas 'IL 4 C)-,) DarK rf.c; britt,e 9utsHm.--s
were obtained, easil., s 1 un I ~ ir, tc~nz. !,,,, t c 1 Li-np. cart.,,-, t-'rs
chluride, ana hvxanQ, poorly solubl, n i-aT - ,i e , a r~, i h - r r
Card I/ "
Phy a icoct,emi c a I pro pc-rt i o:a B*01, D, 10
solvents The so ,ut ions I I uo res c t-(J s 1 ,,~n t I y F 1, r t h t, - a t a y
is indicate,li sitr. Ti- , t h t r ea c t i, n at ~0')C s f t - r; ri r
4
th. res In C T~ ~~ 1 .! c, A a 1 A t I R t C 7 v-a , t -3 7 t a
Ooc , S, f t- I I r"4 c I n* r c-a I, n 8 t E, rt i t J,
8 o f It e n i nw, r,t 7- CC . Ll-,S tj A t t, SIL all r, I n a
even a f t ~, r ll,~ n t~a f~.' Ei I Y e ns at I n r
r.a p h t h a 1 e r, w as (7, a r r i - - a at -A rA I a t a ! ! :1 7
are glvf,r, in Tavl~- ' Th- ata~.. a. n r 8 t t, r. t!~-
S -, C I T 7 r': 1
S a
I r a ti i 7
a, t I y i t I !i Pr
w e t r, T
-levated temi e r,i s
T h - q 1 t r I ris _i n jr,.. r m A
a uiethou dt~scrL e,: 3r, i -)s 1~ -V h 3 h -
rI t r, a r - A L, s
r) o c
bard 21'
S/ 19Y6 1 /'C,, 3/ U 12,"(,021 C 12
Phyeicochernicnl properties ... B101 B 110
(polynaphthylene methyl). The polymfrs fire recovimf-nded for imprefniti-)I-,
of paper condensers. The magn,tic susceptibility was aeturmined
according to L. G. Gouy. -K-10-6 cm)/g for polynaphthyl(,ne methyl obt3int-d
with SiCl, waut +1-441, with TiClj -0.0451 with GeCI 1 +0.892; with
1. 4 4
ZrCl4t +0.226; with SnCI 4 t +0-756; with ThCI4 1 +0,331; with TiUl4 in
hexanet +0-555; with TiCl4in CCI4 1 *0.150. Since polynEiphthylene methyl
contains no polar groups, its paramagnutism is ascribed to formation of
free radicals in the macromolecules:
Card 3/
Physicochemical properties ...
CH
-09CZ
S/1, 9Y611003101210021012
B101 B110
Both the polyphenylene methyl and the polynaphthylene methyl polymers form
films';rrom benzene solution which firmly adhere to the metal.and protect it
from corrosion. A small iron plate covered with polynaphthylene methyl
Card 4/ 0 /-'
OSIPGVJ* O.A.; KASHI1011NOV, O.Ye.
Magnetic suac*ptibility of some tin molecular compounds. Part 1.
Zhur.ob.khi-. 31 no.6tl755-1759 Je 161. (,KE-,A ": 6)
1. Rostovskiy6-na-Donu gosudarstvennyy universitet.
(Tin organic compounds flagnetic properties)
~- 0711 f~l Il
1)2-'N WW)
1,
T I I LF
I I'l, I I ~ I)l f Z III, I I h - to I
FEN, I at] t III,
If (I I
t, ji I too J# LJI 1~, t 1 11 1 1, 1 1 t I (I f Z; I tool
f I:; a ~T
h- I
'tirl t I t 1 1) 171 -irl M
W d
,Ill ILI) o t 11 1 'll- h .- L:1I
I o rl L -1, r)
S (,79 (A 0 11
Eilf-II.- t I ~11 ~(fj tit.] I I t D-
v 1 0) t 11 " x r v I t I oi, o f N I'~11 , o I
rp c t i I t n v I% r I oil ! 4.. it i, I tI Im. 11 til- mil Imilm it.. % II% I
respond lo t.11., coml o , I I Ioil f t1w 1 4 o t i ng com pou 11 d Th, iii I ti,~
.qid,-r thilt Milan- t 1( 411 ~ t I III I I t I In 1, v f I IA it "I d. "I'l I I ( " t I'~[I I I
I'llys I c 0 ( 11cm I ( i I nfl'~ I N s I h. 7 1 0 1,1111 'Irld -,(. r, !1'
sovipt bi oc I [I d 16 ll')II I t 111 11, T . 1 11, "s lo ( 11, 1:1.,
Eng] I -;h I t~n ru ii k~ - pi I ~ I i i i t d f I I I I!) % I
o f E I t r i ~~nd V,irr- x I I I r I t
T 1) W t 1,
1 17
'~L 1W 1 11. 1
Card I , 3
KIASHIRENILOV, O.Ye.; W, .-POV, O.A.; M.A.; V.I.*.
Magnetic of' I,Irjiry llrjuid 3yotoma. 7hur. c)~D. khlz.
I Inc .1 ~ -, 3 56i, 'A ') ( ~,-,N1 ~,l . ( :- 1 T. ;, D. 11 )
Systom3 (Chemistry)-Malmo tic properties)
-OSIPOV) G.A.) SIMONOV, A.M.; VdNKIN, V.I.; G,'dU1OVSK1Y, A.D.
Dipole moments of imidazole and its derivatives. Dokl.All SSSR 137
no.6:1374-1376 Ap 161. 0,'JRA 14:4)
1. Rostovskiy-na-Donu gosudarstvennyy ujalversitet. Predstavleno
akademikom M.M.Shemyakinym.
(Imtdazole Dipole mow-rr'-f,;
KLETELIK, Yu.B.; OSIPOV, O.A.
Reacticn of titanitu~ tetrahalice~: with estf~rs of acetic acid.
Zhur. ob. khim. 31 no.3:710-716 Mr 162. (M IRA 14: 1 )
1. Khimiko-metallurgichenkiy inntitut Sibirskogo otde'eniyu PJ: SSSR.
(Titani,-m conpoiln(!s)
OSIFOT, O.A. . LYS=O, TU-A.
I--
Electric properties of systems formed by titanium tetrach-loride
vitb esters of trIchlorcacetic acid. Zbnr. ob. khim. 30 sio.12:3866-
3B69 D 160o WRA 13tl2)
1. BDffitvv9*-Aa nia govWarstvennyY univereltet.
(Titanlon-WorAde) (Acetic ecIA)
OSIJW, O.A.; E13TEXII, Yu.B.
Heats of reactions between zirconium halides and asters. Zhur. nearg.
kh1m. 5 no.10:2220-2222 0 160. (MIRA 13:10)
(Zirconium halides) (Chemical reaction, Heat of)
7 ),/6 0/0 ") 0, 2.
BOO I //BO(,4
AUTHORS: Osipov, 0. It, and Lysenko, Yu. A.
TITLE: Electrical Properties of the Systea~s Formed Fi om, Titan.um
Tetrachloride and Esters of Trichloro Acetic Acii
I JD I _'A L Zhurniil obshchey khimii, 1)~,O, Vol
np. 3966-580 ?
TEXT: This paper gives the dielectric constants of the systems of TiC '4
with ethyl tricbloro acetate, n-butyl trichloro acetate, isobutyl tri-
chloro acetate, isotrichloro amyl acetate, and the dipole moments of
some etheratea TiCl 4-E,where E io the molecule of the eater. All determina-
tions were carried out by previous methods (Refs. 1, 3, 5) Lit 20+0~10C
Tables 1-4 show the dielectric constanto (F,), denaities (d), refractive
indices n aj well as the values of the orientation polarizati)n and th~-
mean dipopo' moments of the systems of TiCl 4 and the four esters of tri-
chloro acetic acid. The two last columns of the table show the Jeviations
of the dielectric constantr and polarization from the additive values.
Card 1/3
Elec ti i j ~7 j, i_'
From Titanium Tetrach-,-,i~- 1 Tri - 7-,001IP364
chloro Acetic
members of a homologue 3eries T:i es r e
11 references: 9 Soviet, 1 iS, ~ir;J I ~ritisrl.
ASSOCIATION: Rostovskly-na-Donu Kojudarstven!.y.-~ iniversitet
(Rostov-na-T)onu St7ite 7nversity',
SUBMITTED: F e b ru a ry
Card 3/5
9 IZI (0 12,
86494
S 10'? ~' ( ,, - ,I ~' I I- I i Y. Y
BC2 Bc~'
AUTHORS: kOsipov, 0. A., Lysenko, Yu. A.
TITLEi Heat of Formation of Esterates of Titanium Tetrachloride
PERIODICALt Zhurnal neorganiche8koy khimii, 196'-, Vol. 1), 11n.
pp. 1840-1845
TEXT: The authors investigated the heats of mixing of the 3y9tvms:
TiCl 4 - iso-CH 3COOC5H111 TiCl 4- sec-CH,COOC8H10
TiCl 4 - n-HCOOC4H9 and TiCl 4- i9o-HC11CC'H,,.
On the basis of the results obtained per g-mole, also the chemical nature
of each component may be determined. For systems in whici, chemical Froces-
ses take place, the interaction between the compnnentq ig cloiirly noor. If
the thermal effects per g-mole of each component are cal("ul,itpi
Tables 1-4 Furth~,.r i nves ti gat i ons of the authors c(-,rf i ri. tt,- r,yj (-, t!.,-~3
according to which compounds of the type 2TiCl 4' E (E = ester hre not
formed in the liquid phase. It was shown that in the compounds TiCl 4'
Card 1/6
%494
flea t of Formati on of F-9 teratp it of T It fir, i um 5 '079,/ (,,-, , '0,-, yy
Tetrachloride B02 ""BoU,
titanium has tt,e coordination nuater c, i th tf.e ~--,,ter oxyrer. of t~o ;--*-r
molecule being the principal eloctron donor. Ther, dire 41 fit-ur,,--,, ' t-,:
and 11 referencesi 0 Soviet and 2 German.
SUBMITTED: March ~1, V~59
Legend to Fig. 1: Bests of mixirij- in the sygtem TiCl
4
kcal/mole; 1i thermal effects of TiCl 4, 2: thermal effects of th" ,St(,r;
3: thermal effects of the mixture.
Legend to Fig. 2t Herits of mixinr in the systerr. TiCl; sec-,rfl -'Iz
kcal/mole; for 1,2,A see F,.g. 1.
Legend to Fi_ ~: Heats of mixinr ii, ti.c. TiCl', -F.,
kcal/mole; for 1j2q' see Fig. 1.
Legend to Fig. 4: H~?ats of mizing in the system TiOl )-",,H CHI
kcal/mole; for 1,?,~ i1pe Fig. I.
Card 2/6
86494
5/076/60/005/0()9
B023/?c -
Tin,
Net 1. Tenamm cmemennx cucTe.
mu TiCl, - xao-CsH40OCCIls.
xxaAlt-.UOAb
00exTu "=Pexznopx*
croro TuTams; I - Tem-loswe 64,4)exTu
wc~wps; J - Ttroosme totexTu CN?CW
Card 3/6 - . -
86494
S/078/60/005/000//C 3C,"O I 'Xx
B023/Bo66
Pac. 2. TeruroTm oucwemm cticTe.
TiC14 - smp-CIl,TOOCCIls,
xxa.t1p-.%oAt.
Tennosme wcm:o"Tw qe7wpclxj7op*-
CTOro TWTOIIA; I - TM-Insue wboe?(TU
oompik. i - Telmolue &W"Tti Cmecm
Card 4/6
86h9h
B02 17,/,T~r6
folp
Pme. 3. TpniOTIJ CM('tllPllltn CIICT(M;A
TiCI41-ii-C,11900CII.
I-Ten.j()DWe VV~CHTW
c7oro IMT811n; I - Ten.M'sWe Mle"Th;
Card 5/6 24NPA; j - Termosme OMVI(m c'mecif
u IP tv
TiCl, AMA % -HMO~,H,
86494
S/C78 /'(C/C,C5,'C~-eI"'-
B,
B023/
vrzlr.
Pmc. 4. TenioTu cmmr-min citc-remLu
TiCla- 1f30-Csll,j0(-)(:jj,
XKaAlt-AfO.lb.
We 044"TU mrrUpel
cTora TwThotwe-7mm'"Pie P1~1-eliTlu"M--
Card 6/6 pa; ,- -mm-loolle D4.1"I'lli cmtcu
ov w JV SO
NC14 MAA If &V-Nmo Yn
S/07F,, 60/ 005/0'01 01 11 010 XX
BO 1 7,'B06
AUTHORS: Os)pov, 0. A, and Kletpnik, Y,i~ B.
TITLSs The fleat of the Rfnl- t i on -)f Z 1 rconium flii' dr ~, W i tK So te re,
PERIODICAL: Zhurnal ne(,riarii che ~k )y khimi i , I ItOO. VD] '0,
Pp . 4',- "'o - ~' ~ Z 2
TEM The he,l~t w)Tlch )a cenerated in the rea-Ition of zirconium br-,m:je
and zirconium chloride with ethyl formiate, ethyl acettite, Find o'hyj
butyrate, as well a,; the heat of solution of zirconium Iodide in ethyl
acetate were determined. The ratio of zirconium bromide and zircnrium
chloride to the esters was and respectively The heats (J
solution of zirconium halides and the)f cDmplex compounds'?in these
esters which were also determined are given in Table 1. Table ' cilinwq h(
heat of formation of the complexes. The complexes could be obtained on';y
as solutions, not in the solid form. The heat of fermation of complexf:-s
with the composition I t 1 was, in all cases investigated, hit:her than
*-hnt of complexes with the compouition ) t -. This result confirms the
Card 1/"
The Host of the React i Dri of Zi rccnium S/ 07,'1/'60/00'1, 010/ 0.' ,,, 050/'1XX
Halides With Esters BO;-"/BO67
d i saoc int Ion scheme ougf7ected ear, i e rby the oil h,)r!, ~ H--ffl. ", , ", ' .
trast to molecular compounds of tetralialidpe nf tin in thv order
cnloride bromide - iodide with these esters, n- c3ntinuous decrease i,,
the heat s of format ion in the above order was observed in the ~,-)mplexp e,
of zirconium hal ides. The heat of format ion Of C0MPlPX09 Of 71 rC,-)rl IUM
bromide with these Paters is oomewhat h1rher than that of complexpe r)f
zirconium chlori de. The hei,t of solution of z i rc,)ri~um ic)-i Ae in e thy "
ac,~tatp is 4% lower than the heat of solliti,)n of zirconium chl~iride in
the same ester. There arr . *ablps and 1.) referonceo! - S~-)viet and , US.
SUBMITTEDt July
Card 212
KLBTJSIIIK, Yu.B.. ()sEpoj, O.j,.
Physiochomical investigation of some zirconium halide con lexes
with oaters of 1.-)onobasic carboxylic acids. Izv.vyg.ucheb.zav.;
khim.i khim.tekh. 2 no-5:6?9-684 '59. (MIRst 1)'.8)
1. Aostovskly-au-Dovu gosudaretvenW univereltet, lchfedra
fizicheakoy i kolloidnoy khirnli.
(Zirconium compounds)
OSIFOY. 0.A.; PANNIA. M.,ft. -, Y,,GUSYAR, Ya.S.
Heats of mizing d1ozane with chloroform and 0 -toluidino.
Zbur.ob. ichim. 30 no.7:2127-21JO Jl '60.
xRA 1):?)
1. Hostovskiy-na-Donu gonudaretvennyy universitet.
(Dioxane) (Chloroform) ~Toluidirie)
oS111OV, O.A.; AHTXK)VA, V.M.
Electric pr,)-~Prtis-s of ianer ~ot7-(,,.nls. 1) -~ 1 .4 S 5 S ~,A
133 ao.1:166-169 JTI 160. (MIRA 1 -1 : " )
1. FtnatovFikiy-n&-Donu goaudiLretwinn" un'vortiltet. Prodetavionn
akridomlVom A.N.)~rumkinym.
(Complex conpounda-Slo-tri, Irojortins)
AUTHORS: Oslp'.-r O.A~ Ly,,rxirc Yu A 7B 3 7 2vtt,
TITLE. Th.5 Eleltlolyrlis of Tj-rnc.',3orotitjs dum Gompour)Aa With Some
E.3'.ers of Ar,,'I-i (XI.. Elektrol z soyedinm-iy
~hevyv%khklLlo.-~ - ~ogp ir&ra s nikolorym efirami odnoo,4novvykt.
k--!%Ict)
PMODICAI~ Zhltrna; r,~orE&,_ kt-i=i, '958, v 1 3, Nr '1, pT' 1605-16c-,
( USSR)
ABSTRACT: In the of th-~i p~ement paper the esults obrai-ned by the
e
J r -(IV)-chloride in n bu'ryl-
l!~.;Tcolp s of tll'~ .1011ition.3 of titantz
fozmA 6 L,~, ~x=y Lac -~ t-, t t- etttyl acetai,4 and ettkyl fomiate tlr~
"-Up~~ &nj 4
.r
SoMe Ca; t~,S, pl~tjjDUM Id 3 11 -7,
ax ~ r
u,-d for t1,io%rode,%, Ii the oo,.xmj of electrov-
Bis thrtr,~ (A b--i:,K at t1a cathode in the ms,~ of
all In whi---h ~hc rakio betveen timailm a;xd -_h1oY:in-
i~k A, Th-:, ;voud- n p-m-.3--ct Is 4-prated Jr, the of
b-twetu t.,L~an-i-am &M nhlo-lwi ipj t i 4 On rhe
"t Is assume.3 that a~ the ctatri(As
T'iC!-) %Yhi,.~h is reduced wAkn TiCl ~o TiCl
4
Car3 Tn,! f c)im-i r ion c~t T iG I !iax-ao, ed t.y the fact tha t at f' r., t
XI. The El-~ctrfj~y.4-, c.f Compounds 16 3 '/-23./"
With Some Eatera of
a y-ml 1cw' v, cvvrr p: -mcip. ta,.,ou ~ -3 formed on the cathod-, The re-
otla 1-1 j,,f~rm u,,~ qc.h,-mc of' th#- elec-tmlytic, di330cia-
t~or of ~~.Iur-:Je in oomplex estetr-3 &a described in
~ir'- Tr)-,-~ ar-- i -.,jbl- and 9 refer-nces. 6 of whir-h
vkr,~ S.,
SUBMITTE) J ur. -
2 Titanitun compo
-vi re t I -n TI inpo,inds-Pre,~ipitatiGn
e v re s uJ t -3
Carl 212
8
3/02YA07/~123 3/01/4 6/070
B
B004 B007
0 t'/'-4
AUTHORSs On pov, O~ A., Artemova, V. M.
all
TITLEx The Elec rical Propertis of In~rcomplex Compoundal
PERIODICALs Doklady Akademii nauk SSSR, 1960, Vol. 133, No. 1,
pp. 166 - 169
TEM The authors investigated the electrica* properties of the acetyl
acetonates and hydroxyquinolates of zirconium thoriung indium, ~~M~um_,l
chromium, copper and cadmium, which have a ch9late bond. The present
investigation aimed at ascertaining the cause of the great difference
between molecular and electron pol&rization. Vhe dielectric constant, the
density, and the refractive index in solutiors (carbon tetrachloride,
benzene, dioxane) were determined. Table I g'ves the values found, which
show that the dipole moments do not depend o-i. the nature of the solvent,
and that the difference between molecular &nJ. electron polarization is not
caused by this solvent. The authors assumed 4he cause to be a shifting of
the atomic nuclei due to the application of it voltage, and therefore in-
vestigated the electrical properties of these compounds In the solid phas
Card 112
OSIFOV, O.A.
Deposition potentials of zinc and hy*togen &n the presence of potassium
xanthogenate. Uch. map. RGU 40:103-1 1 056. OCMA 13: 10)
(lanthic IA61d) Zinc)
(W&rogen) (Reduition, Ilectrolytic)
GSJ~qV, (t..A ; MINKIN,
TITYtJ~~,VA, Zh.A.
ri 'I " I -
1) 1 T, -) I c, m, rrp - !-, " ~7 and i ~.r -, t ir~ -,' 01 3--sa ! I ' i ~ - ' I , 1 1 " -
'I j ', . Zhiir . ,i- rukt. Kr-,,m . -, I I N- D ",4 .
I . It p t. "I , K '. '. .. I
I , I,i:- f,vf. fill , V I I r , I "I' ! ~; ." . .
MT W 111 '. . 7 . ' '-f, L". ".I ~ , ' -, , t 'I )V, (). A. j NSTROOHOV, Yis. A.
F, E7~~ ~,i , r . - j!. tiu ~, qr..i . t ---, q i -" , n 61-oic --,a of s a I icy! a 1&n I I I dt,
an,i ', t .1 : if& t , .,, i ~ 11, ~ . - 3 j, i. ',i . -- 8 ric, oZ .9 571 -578 Ap '65-
(MIRA 18:8)
JSMATL(-'~', M..M.:
phenols ar.,,J Uleir A'l
It I n t.
AN A,~f-!'
KCi
L A4P9417 ~,-, 'r ( n ) / "w" ( ~ )j L";
-ne souitci. COD-': 7
7,77003666 U R/ 007 9/66/016 1 OW I
KOZI-Ov, I.A., GSIPOV O.A.U Vo2godonskaya Affiliate A 11 -U r. 'A or,
Scientific Hosearch-f;S'Eltute 0-f-synthoti,c -oil _511br, uitUtO5_(vo'lj"Cdon5kOy f! 1 ~~(d
csoyuznogo 7hirovLmcnitolley)
"Reaction of Tin and Titanium Tetrachlorides with Ethanolamidos of Aliphatic
Acids. 13111
Moscow, Zhurnal Obshchey Khimii, Vol 35, No 8, 1966, pp !LBL-107
Abstract: It was found that in the reaction of tin and titaniu;% tOtl',~(:h:orideG
with monoethanolamades (K1FA)RC(X4HC2HLGH and diethanolarides
4 )2
of aliphatic acids, where R _i~s Illy rocarbon radical containJlng from s,~.ven to 11
carbon a'o P 'npoun ~.Ilt'l
v m3 c 01-1 h tho compo3ition and
3,MxC16 are formed. it wa3 further fcrind that in dioxane 5oaut~r);-, tl,-,~ro complex
rompound3 undergo further molecular transformatvionz;: a minlecular
of complex compounds of tin and titani.wn totrachlor~des w-ith of
aliphatic acida was detected and studied. A mcch;inism -,;a5 propo".06 for the
rearrangem,,nt: when solutions of the comploxc3 in dioxano aru heated, thore s
a roplacomment of the hydrogon of the hydroxyl group of tex ethanoaariide3 by
Sn^13 or -iC1 group, liborating a HGI molecul.u. 7he latter cAu!;os a rearran,,o-
nent of the ligand molecule, accoMing to the sche;-.io:
(HCOYHC~%Oli - SnCI) 2 __* 11C1 - Nil 2C 2000OR + RCO,%'HCj1cO3nCl
Co,d 1/2 --Ui)C-- -547.258.11 +547.372
ACC NR! Ai,7005109 SOURCE CODEt UR/0079/66/036/OOQ/161)3/'11-,j,,
-y', Yu IW3 tov-on
-V i V - rm %I", I -
M. G.
Donstato Univorrity 11111vorultr,i-)
11
"Investilf,ation of tho int,eraction Between i-titi,a--n.-Flu-toxytitanixim~lai)d tho
lotrachloricies of Tin and 5ilicon"
Yo-gcow, Zhurnil 0b:Aw-hey K)IJ171ji, V0', J.') ~)93-' 70~
_ 9, ()6,
jlb~-, trac t: ".1; 1, h thr i d viir 011"i wh( I'li C,i'~ 'I'll dc", W!~ c. 1, r.1'. '~,)Ssoa,
f orrnn condiirli n~, c omillox i:, not.
ch"orldo biill a'~so u-ith such a wea'l, 5iicon
cn'lo,-ide. 11, was -shown that t-ho iio-oraction hotwrl~r tho t(
ar.1i ~:~:icor) -ind
1"o r;"clill "i 1) , 'Iti )Ilj- -,.i to ti o
for
, , 7--itio-, of Q,t, ro~ lowir"; 'j
Isic s ~ C 1 01111 "1 t i x (.:I
;knl th:s 'o Only
Of
1,0 a lari-I! df!17co, t:ic!
~,n'.orrwticn '-o~t-.-reen tho DOV tile decon-
por C' OC)', 4~,
~jon 0~ ! [I j iccount's for th cc I (I I ir
Or art. lins: 11 ~Orrmlvas and
eloctric cor1rJuctivity wit time
8 tables. 3 97Q9 anosilicon compound
-jLOjjjC LkC.S: or,an iL Lun compound, orgnilotLn cor,1pound, org
0 t Cal I
SuB CODF.07 SM DATEI 06JuJ65 / ORIG RE111 013 / OTH REF1 001
LCard 1/1 UDC: 547.1'3-t-546.81-+,,~46.28
LLiL4 c
Fe r r
If f' C. t C fl T-. 7- 7 (, r r r: r rr
I
Fx r a t,,q h C Cc i p0
.c . 1,
Q - Monthl List ()f Russiin Accossions, Library nf C(,tigr,,,,,, '-!n c I
", , "". , ., L ~
I . t I! r, rl -
:,-"rt-c f- c f , , , TI( rn I E, r t ~ 1 1 ~ - r: c r, . ,, -, r (- I! -.
Faralba~h. , Krrr. .-I !, r . ~ .- , . , " -,
() . Mon t h I List of i~usslan , Lit,rliry (,f Cungr-ss , ~ z,: " - .
. -- ~. - . -, - , I .
I-o . Mon t h ', L i s f -, f PL.- -, t rin Ac r - ~,; s i , ris . 1. 11, r-k t-V - f ~'( S . J: . . 1, 1
YAMOV. Sh.A.; OSIPOV. O.B.; MAMEDOVA. A.R.
"Etheran"- a now type of agricultural poison [in Azerbaijant with
summr7 in Russian]. Izv. AN Azorb. SSR. Sor. fiz.-tekh. i khim.
nauk no.1:125-131 '59. 01IqA 12:6)
(Ether) (Insecticides)
WEDOV, Shamkhal; GSIPOV, O.B.; ALIYEVA, Kh.M.
Catalytic alkoxymethylchlorination of olefons. Azerb.khim.
zhur. no.2:83-91 160. (MIRA 14:8)
(Olefins) (Ether)
HOSDOV, Shankhal; MGEIdLM4OV, b,G.; OSJrOV, ().b.; ALWKZROV, A.S.
Bactericidal properties of certain ether preparations. Azerb.
khim.zhur. nc.1:65-6~ 161. (MIP-A 14:8,
(Ether) (Bactericides)
VA?ffWV, Shamhal; OSIPOV, C.B.-, ALIYEVA, Kh.M.; ZEYNALOVA, V.M.
SAIlran-66, a new herbicide. Dokl.AN Azerb.55R 17 no-4:331-334
,61. (YMA 14- 6)
1. Institut nefteP+Amic~esklkh protsessov AN Azer55R.
Predstavleno akademikom AN Azerbaydzhanskoy SSR V.R. V,)lobuyevyfr.
(Herbicides) (Isopropyl ether)
KOMDOV, Shamkhal; OSIPOV, O.B.; ALIYEVA, Kh.M.
"BetaeflranO (ether preparation). Azerb.khin.zhur. no.509-63
161. (MIRA 15t5)
(Sthera) (Insecticides)
A%
, Shamkhall j O.B.; GRISHUA, Ye.N.
L.L'iran-511-,~ w,,, -'iran-94, tow highly effective cherdcals for
bollwo= control. Dokl. a' Azerb. SSR 17 no.8:691-695 161.
(ElIV, 14:10)
1. I=titut neftehlbrdcheskikh protensov At' AzerbSSR.
Predstavleno akadenikom 0 Azerbaydzhanskoy SSR I.D. Nustafaivvyr..
(Bol-lvom)
(Insecticides)
5hamkhal _-~--CI.-O.B.; ilj[YDYROV, D.N.; AVAIM,YAN,
AGAZ-V, Ye.11.
The now contact insecticides efiran-70 and efiran-103 for
agricultural pests. Dokl. AN Azerb. SSR 17 no.10:037-640
161. (,",IRA 14: l-' )
1. Inatit ~t ief tekh.11nichesk .*'.Ji protsessov All AzerSSR.
Predstavl-no r-'ravieniko!- All AzSSR G.A. Aliyev~m.
(Insecticides)
MkWDOV, Shamkhal; ALMVA, Kh.,M.; WIPGV,, O.B.
Uti.lization of olefinic components from the liquid pyrolysis
pro,ducts of petroleum bydrocarbons. Neftekhimia ~ no.1:115-
120 Ja-F 162. (-~~MtA 15-5)
1. Institut ne-ftekhimichoskikh protsessov Ali AzSSR.
(Clerim) (Herbirid-3s)
MA*,DDV, Shamkhal; OSIPOV, O.B.; DMiALILDV, T.N.; GRIZHINA, Ye.N,
New contact Poisonous chemicals "efiran-168" and Ilpfiran" 169."
Dokl. AN Azerb. SSR 18 no.9:lc)-2~ '62. (MIRA 17: 1)
1. Institut neftekhimicheakikh j,rotsessov AN Azf~rSSR.
Predstavleno akademikom AN AzSSR I.D. Mustafayevym.
?T,SSIZR, Yu. M. ; ALP A' -- N Y , 0 ~ , i I'~
Elactrochemi--,i' phygi -1--,'-~,.! ." of nl,imiiiin (-rmpol)nki7
t
in nonaquo-)-j3 :,- . . , I ~:,n ~q . ',' - : A ' ' .7 . )I-, n , . , - " i, I - 214 5 Mr - (" .
M"A ~"-4)
1. Instl.tut AN'
I "n 1. ,
p * . I . . .
:, , " - it . I
6
-ACCESSION M AP5021616 510001,01310)W0094
AWHORS t Mamedov, Sh,j Arabov, A K, o.1 Oaipov, 0. D.; Griahi-na, Ye. lit
'TITIEt A method for controlling insects harmful to farm vegotation. Olziss 1+5j
Vos 172575
-.SOURCEs Byulleten' izobretoniy i tovarmykh znakov, no. 13j 1965, 91+
TOPIC'TAGSi pesticide,
T -agriculture, insect control', organic compound
ABSTRACTS This Author Certificate presents a method for controlling insocts harrr-'!
ful to farm vegetation b7 using an .insecticide acting as a reaction starter. To
enlArge,the aasortment of inaeoticides, P -die-Uqlaminoethanol benzyl other is
gtp-s~4-,, .9 Coripo=C
___A=IATrON1 none
SUBMrM 1 64 ENCL: 00 SUB CODB i IS, OG
lgAp~r
Rl~ Sw 1 000
armt ooD
~Icr-4
011
KESSLER, Yu.1M.; OSIPnV, G.R.
Elea tromaFrie , i, :~,ojqo~r w4th a w.de- ra~v(i of '~,
ofrra t I onit.I p1jigem. 3`4 no.'1112P,4--,P/,P N
165. (1.1: ~'A I p ~ I
1. L-ifl'Atut ol,41.rok~.Amll AIN
MOTORIN, L I. ; QSjFDj,_L_V. ; ARIFULIN, S. A. ; PETRYAYEV, A. A. , ot v.
red.; CHERTIEGOVA, E.N., red. lvl-va; 1,0141LINA, L.N.,
tekhn. red,
[Regulations for the exploitation of drilling, pumping
compressor, power, special, And construction equipmentl
PrRvila ekspluatatail burovogo, nasosnogo, kompressornogo,
silovogo, spetsiallnogo I stroitellnogo oborudovaniia. Mo-
skva, Gosgortekhizdat, 1962. 22 p. (MIRA 16:7)
1. Soyuzshakhtoosusheniye, trust.
(Machinery)
L, A.
L 52 RWT(l)/,W0)/WA(b)-2 ft-4 RO
ACCESM M %P!ka$53q UR/0286/65/000/008/0080/0080!
AOMRSt Mmedov A, Kho As-Ke Avansfimp M. A.)
0. V.
so ve
TrWt A method for controlling weeft, Olass h5, No. 170*6
SwwRs- Byu.Uetonl isobroteniy J tovarnykh zaakovs no, B., 1965p 8o
TOPIC TAGSt agriculture, pesticide, eoter
ABSTRACTt This Author Certificate presents a matbod for control-ling vee
Is by
herbicides, To brotdon the aaeortawat of herbicides, pam. P-craBOX7. -carbo-
methoxjdiethyl aster Is used for thia purpose.
I none
SUBHr= t 3lJul64-- ENCM 00 SUB COM 00
NO REP SOVt OOD s ODO
AIA
OSIPOV, P.
All-purpose lathe for yOung technicians. lUn.tekh. 7 no.1100-
71 N 162. (MIRA l51l2)
(Lathes)
03 1 PO','. P.. narhal 'n ik; MMKOV. G., olesar' .
'oll,lAow nnaffol(~. Zllil.-kom. "O,oz. I 1:0.():IiA-A J- , ~. W I-al'o
1. Remontno-stroitol'naya kontora Kirovnkot-,o rayzhllupr,-vll~-iilvi, It-
nik-Domi. t, I I o I I I, ". ,
OSIPOV,P.
More about the lag In production of equipment for concrete work.
Nekh. trud. rab. 9 no-7:18-19 JI '55. (NLRA 8:9)
1. lachallnik Glavnopo upravlenlya stroitellvxvkh =shin I obo-
rudowaniya dlyft proixvodetva stroitellnykh materialov Kinisterstva
strottellnogo I dorothnoro mashinostroyenlya SSSE
(Building machinery)
OGIPOrvp P.A.
Causes of the formation of twist in raw silk during the unwinding
of cocoons. Izv.vys.uchob.zav.; tekh.tekst.prom. no.205-39 163.
(MIRA 16:6)
1. Kostromskoy tekhnologicheakiy institut.
(Silk manufacture) (Winding -nachines)
mom d an of abim"m MA sm d mw
1111011110 (rAa. ppm., low. 260. 0, 18-21).-
5" COmft we, at 61rda of O-W cm. 1110 at wwkm
m. M b..EPUM &ftI &MMMIS 01 160 abwrb"i *are
TI%* fftKu al as ammusdaste --d -=w"m at *1
wm oeam& Ths bwvum &w aw law usaxam a"
&UWAMINA. vibcts 4A W amwA --X- Ws
a jpvw dppth UA &M MIS 44 tjw WCOW Inueffm-
ba "as s% "m low. Ow MAN. diflerm* bnM st OW. Us&
stwo"PA in the loot mamer"m 0 &1 W, &ad W)-M)-4jn. dqAh.
L- D Uv-mov
OS I PC V F A
Forces actinr !n * Ke -f-
lzv.vyr-. uoheb. zav.; T 7. r"-.
1. Kos t ro rr,.-, ~ uy to i. ~ in c
CSIP01", P.A.
-sturp of ruw 'k fl vy5. av.. I,
tek.g.
Kustr :nskoy tokIti,( :o,- Ichesy y -ris 1,1~ Lu t. St. bn--~ t Lec
-9f,4..
EATAISK V, Nikolry ';ikclnyevich; K'JRNHIV, Yevrenly Mikhpylovlch;
Fetr Fe0otovich; 1~ TY, V. T. red.
ISAYEVA, 'I.V., ved. r YAK,71:-VA Z I t~-khr.. red.
(Preparnticn, treAtment, F,.nd cierning of clay solutions;
prnctires of petrc~leum workers In Kuytyshev Province'
Prigotovienle, obrmbotkn i oci,istkn glinistykh meditw-rov;
opyt neftiAniknv KiiIbymhc*v,,qk( i obInsti .~'nakvn, Go!it(-,I)-
tekhizdntp 1W. W P. (MI" If,: 11
(~ i I well d ri I I ing f 1 iiids;'
0,0-J. 49%
LAO
AUTHOR: Osypov, P.U.
TITLE: The inertial motor dyad
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PERIODICAL: kkademiya nauk Ukrayinalkoyi RSR. Dopovidi, no. 4,
1960, 419 - 425
TEXT: The inertial properties
single scalar - the mass of
tial properties of a moving
following ten integrals are
m
2) The three statical moments,
ter of gravity
31 = Mxc x dm, 32 = myc
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of a moving particle are given by a
the particle. However, for the iner-
rigid body to be fully determined, the
necessary: 1) The tdal mass
dmi (1)
giving the coordinates of the cen-
y dm, S 3 = mZc z dm; (2)
V
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The inertial motor dyad D232/D305
3) The three moments of inertia
(Y2 + Z2 ) dm, 122 (Z2 + X2) dm, 1 33 (x2 + y2 dm;
(3)
4) The three products of inertial
112 = 121 xy dm, 1 23 = 132 yz dm, 1 13 131 zxdm.
(4)
These 10 quantities are the components of a motor dyad which de-
fines the combined inertial properties of the rigid body and which
is called the inertial motor dyad. Theorem:
q mV + v (5)
A
where q is the motor of the quantity of motion* v = w + ev is the
velocity motor corresponding o the pole 0, and a is the inertial
motor dyad. It is shown that j + J*, where
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The inertial motor dyad
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0 S 3 - S2 ill 112 113
j + 61 S 0 S + FE I I 1 (13)
3 1 21 22 23
S2 - S 1 0 LI 31 152 153
i.e. J is a hypercomplex dual number. Two-orthogonal coordinate
systems are chosen - a stationary systeip Oxyz, and a moving system
Oxyt. r0 is the position-vector of the moving origin referred to
the fixed axes, so%that the Position vector of a general point of
the body is given by r0 + r, where i and r are the position
vectors of the point referred to the stationary and moving systems
respectively. The general equation of motion of a rigid body is
discussed then. The derivative with respect to time of the motor of
the quantity of motion equals the motor of the force applied to the
body, k. Hence, from
da 96 V^ X U^'
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The inertial motor dyad D232YD305
A + ^k. k27)
7T
Applying the theorem, writing the expression in terms of J and
simplifying gives P.
Ri + A.dJ
m 7t +MW X V + rt J v at k, (34)
where 0 S I
3 2 11 12 13
di 0 i 1 (35)
dt 3 1 21 22 23
2 S1 0 1 L 31 52 33-
Hence, the kinetic energy of the body Is calculated as the dual
part of the scalar product of the velocity motor by the motor of
the quantity of motion of the rigid body
2T + mv 2 + W -(w-i*) + W -(v-i) - V -(W-J). (36)
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The inertial motor dyad
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D232YD305
There are 6 references: 4 Soviet-bloc and 2 non-Soviet-bloc.
ASSOCIATION: Xyyivalkyy tekhnolohichnyy instytut kharchovoy promy-
slovosti (Kyyiv Technological Institute of the Food
Industry)
PRESENTED:
SUBMITTED:
by Academician AS UkrSSR, O.Yu. Ishlins'kly
May 5, 1959
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AUTHOR:
TITLE:
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08ypov, P.M.
The motor diad of infinitee-imal transformations
PERIODICAL: Akademlya nauk Uk-eayinalkoyi RSR. Dopovidi, no. 7,
1960, 863 - 868
TEXTt -The question of the continuous transformation of cootdina-
tes has an important theoretical as well as practical significance.
The author aims at improvi!,r, the formulae concerning this matter
by H. Misee (Ref. 1: Zs. Mr ang. Math. u. Mech., 4, 3, 193, 1924)
Mises' diad contains four times as many scalar components as the
diad the author considers which has dual components. For t = 0 the
new coordinate system Oxi I X~ xj coincides with the old coordina-
te system Ox x x For any time t its motion could be described by
A 1 2 3'
V(VlV V V ) = Z5 + & V(V1 0 v v ), i.e. the new origin 01 moves in
2t 3 29 3
space with velocity v(v ) and rotates round 01 with angu-
1, v2, V3
j-,
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28678
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The motor diad of InfinItcoirnal D21 lyl)305
lar vel~--ity w(wl' '2' '3 ). For the diad of infinitesimal tranafor-
mation the author uses a formula (21) from his previous paper (Ref.
2t DAS, Ukr RSR, 7t 1960)
= 74, U i - (i)l + ~r- i,.), (X = 1, 2,3 (2)
U? / , x x
x=l
where + di dt (3)
k dt
and di, _wX,j_(mmjjJ+wj4 +0813) x 11 =Om,I_fjIj,j
dt I k4)
dim L,3
71 dl
Ap~lying formulae (3) and (2) and omitting the expressions with
dt one obtains
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The motor diad of infiniteoimal D211YD305
Ul' - U. 0 + a 0)+U, (-, + rv,) dl + Us (- U's - ova) di
Us'- Uj(--3-ev.)d1+ U3 0 +E0)+ Us(,-,,+ vj)d1 (7)
Us' -U, (,r, 4-4 V,)dl + U, vi) di + Us (I + e 0)
Therefore the matrix for the motor-diad of infinitesimal transfor-
mation is
I + so VVil - Vjdt
A + e AO -V3d1 I +- a 0 VA (8)
11,dt - V~dt I + #0
Introducing the identical diad E and dividing by dt the author ob-
tains a A 1% A A
A = Vdt + E i Ac = V'dt + E Vdt + E. (11)
Using Theorem (1) (Ref. 2: Op.cit.) and Eq. (11) a new diad is ob-
tained (BI) with respect to a new coordinate system.
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The motor diad of infinitesimal ... D211YD305
A.;.~c dt E).;.(- ~ dt + E) (12)
dD = lim D'- D (13)
a-t &t --+ 0 ~~t
The author proves later that the derivative of the motor diad
could be expressed as follows:
d; (15)
It = D x V - V x D
and that the second member of the formula
dia + 0 x (21)
satisfies Applying his formula to the diad of iner-
tia
0_1
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The motor diad o1' ..'initesimal ... D211/D305
0 s,-s,-l r fit fit /is
j + a je 'A S, 0 S + C1, it, /1 (23)
S -S - /3: /11 It:
I I 1 01 1.
he obtains
0 S3_S
di- J +4J* -S, 4 (28)
di
so 0 1', 183
which is important foil the general theory of the motion of rigid ~Y
bodies. There are 4 reference8 Soviet-bloc and 1 non-Soviet-bloc.
ASSOCIATION: Kyyivslkyy tbkhnolohichnyy instytut kharchovoyi pro-
myslovost (Kyyiv Technological Institute for the Food
Industry)
.-RESENTED: by O.Yu. Ishlino'kyy Academician AS UkrSSR
SUBMITTED: May 5, 1959
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S/021/60/000/008/004/011
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AUTHOR: OqYpoV7-f1.-Y'-"
TITLEt Ostrogradsky's theorem in motor calculus
PERIODICALa Akademiya nauk Ukrayindkoyi M. Dopovidi, no, 8,
1960t 1019 - 1023
TEM The aim of the paper is to prove the formulae of R. Misee
(Ref. 4: Zsch. fur ang. Math. u, mech., 4, 193, 1924) given with-
out the proof. The motor Is said to be any bivector received by
reducing the systems of transmissible vectors to any point in the
space. The motor-field is this part of the space which to each
point some motor is prescribei respectively. The main argument
the author uoen is the proof of Ostrogradekyle theorem for the
motor field and the motor diad. It has the following froms
A-de -ad (4)
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Ostrogradsky's theorem in ... D210/D305
or 0,11i 6Aj aA~
dt, (5)
A,ds (6;-, + +
Por the motor diad
+ iv + 1.~v .;.dT (I.Z + III. + I;i.) dT, (7)
bdi.
D
where ij A.1+ 1 2 92 + 13 3 is the motor diad field and
ai n ea To find the motion of an elastic body, the author assu-
mes 4 agreement with R. Miees that in eao~ point of a oontinu-
ouc medium act the resultant force motors = X + EKO as well as
force motors D - p + ep* with respect to the unit surface. The ge-
neralized Newton's law for the continuous medium has the form
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C.'/C121/60/000/008/004/011
OstrograJf;1,1- 1!3 t in !'7 1. O/D3 () 5
(8)
Where 4 is the motor of linear momentum, and dVdt p* where * is
the motor of acceleration. Using formula Eq. (8) th: equations of
ration have the form
P*dr idr + Onds (13)
but Onds 7 PdT (15)
and therefore pfidr idz + 7 idr (16)
A
Since it is true for any voiame Tpf) a k + VOP (17) By subetitu-
ting Di - pi + e(pi* + r-pi) (1 -1,20) and using E;- (17) one
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Ostrogradsky's theorem in ...
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obtains
V.w+ei(rXw)-k+ v-P+ ilk, +rX(k+v.P)+ v-P'+ (20)
+ (Pat - pis) Is + (pit - pis) 41, 00
By comparisong two equations were obtained
pw-k+r P,
(21) (21)
p(rXw)-ki-i-rX(k+V.P)+V.P*+(p,,-p,,)I,+(p,,-p,,i*l,+
+ (pi I -PSI) ISP (22') (22)
By substituting (21) into Eq. (22) follows
0 k1 + V-P* + (P23 - P32)'l + (P31 P13)'2 + (P12 - P21)'3j23)
If one assumes as usual that X Ot P 0 then
k2 01 P21t P13 = P31P P23 0 P32F (24)
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