SCIENTIFIC ABSTRACT NEKRASOV, M. M. - NEKRASOV, O. A.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001136430005-8
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
January 3, 2017
Document Release Date:
June 21, 2000
Sequence Number:
5
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 2.35 MB |
Body:
AID P - 3449
Subject USSR/Electric it Y
card 1/2 Pub. 27 - 16/32
Authors JNekrq5ov, 14. M., Kand. of Tech. Scl., Dotsent, and
Kand. of Tech. Scl Klyev
Title Apparatus for testing the electric field Intensity
Periodical Elektrichestvo, 10, 61-63, 0 1955
Abstract The authors developed a simple portable apparatus,
fed from the a-c network, which permits obtaining
a picture of the electric field of insulating struc-
tures to measure potentials of any point In respect
to the ground and voltage distribution In different
sectors of the insulating structure. The apparatus
consists of a two-step rheostat amplifier with a
vacuum-tube voltmeter and a probe. The authors describe
details of the apparatus, its connection diagram, and
the method of operation. Five diagrams.
Elektrichestvo, 10, 61-63, 0 1955
Card 212 Pub. 27 - 16/32
Institution : Kiyev Polytechnical Institute
Submitted : S 20, 1954
AID P - 3449
I I i
BUTKO, o.1 NXKRASOV M.M.
A.,, .,,tirrsont to4ntini, rr)nd*nsoqr Dftpo~r for hro&kdown. Himpr". A
no. I/ ~ 3- 14 D ') ~-, . ( KI-RA 10 2 )
1. Kiy"vskiy ordana LenIna Politakhnirhaskly instlt,;t.
(Paper -Testlnel (Condow3pra (Electricity)- T"Ptlno,))
83863
4,
M.M.
Z". K, Vl~ I q K
9,- a~ Z
g:, aj
I TP
Yj
f - r7. f
ov
lp
83863
5 i - -- ~ ~ - , ., , .1,
k-, A.-c
E-z n f I he 3t a*,p -:,f Insul a* ty I ' S aara, r i-
-n 3-
jrs~q whcre ,!%e r-c.axa* I fl.S n r .9 a v
q n.- _1 A r..-' be -In:r-ased wheri i~*er-r.r:ng A an~
r re e rowene 1. t y ~: ar. a9 - t e' rm! r. p
f c r t r gpn-~-, 'r
2(:,0 as whl ~h In- r-asf-~ w, n 71-~r- r-.;i,
t.F &
1000
-Vs
a
9-!~- -nf -,rm' 'y ' 3'
rv,
g t-I a - agr- wl 7,
A* i a~ 7
Pit z
3 0 V
AU. M -- R: NeKrasov, P.M.
,'iTLE: Semiconductor Components of Given Nonlin(-.arity
PERILDICALi Avtomatika, 1958, Nr L~, pp L+6-53 ('~:--r.SSR)
A --~' MAC T :Thp paper deals with 3ome properties (-~,'L n,,niire,,i7
resistors based on SIC or an cxide sem-~!cnJu-tr-r.-,
(PbO+RnCO3 or BaC03); the mixtures are fired 1,-, a,.-
tc produce materials in which tl~ie out-~idle fllm-~ or.
grains differ very greatly in condu(-,t-"v.'ty from the
inside3. The figurQ3, apart fror, Fi4 I which 's,
merely Illustrative give actual result-- cttai:~ei by
the authors. Fig ~ shows a methr)d of ~~onne7:tion
designed to facilitate fine adjuitment cf tne n(n-
linearity (it simultaneously increa3eS the r,(.nlineirJt.,,.
.-,ther methods of connection can lecrease the non-
'-ir,J 112 linearity).
SO V/ I j 2- 56-4- 5/11
3e~ni . rid,,otor Components of Given Nonlinearity
There are 8 figures and 9 references, 6 of which are
.~A r i .'12 Sr viet, 1 is American and 2 are translations from
English.
A3-;o,~IA."I0N: KyyWs',~iy ordena Lenlna politekhnichn y Instyttit
(Kiyev order of Lenin PolytechnIcal In-itltute)
->,, I-,Ml-,"T!~D: August '119, 1957
(15 36 ~
V/1
MTHORS. _~llekr a sov- M fj po If I is vko
~ I rLL %,)III Illf-ar F ( t I I ( Co I ac I s
I ER It ;j I' A i Av I wml t t ka 70-M (U3SR)
A j 1 i A f" t I Ir r I r t I , %. I t A 1 4' 1 1 ~ t I I t N I I
t f 'r If rl" t I I ..
4vII - t I I t it- 'r 'I
a
II~ IIIII-at I t v I I I It I s I It
I r id z r! t tI i (., V/znn, r I s w r%
Ilk I- T (it / s w k t v 'lrI v a I I I v s A c a I . . I
r a s -o F l
- v'i I ,I (lu i (1 "('0
Aild 5 o F -vv V') I t a ,, I
vs I a r W tarl b
(11-11 T it 5 -'; 1 - - F
~i I I " it v I w () III I r, r's
f. a A f-l 'j t I ok , a If,., u t
IK f, C L'i 41 tl I v I,- in ia u r v m I r i , 111 2 it
e T' T ''I ~ 1 11 '11'1 1 a vr it III fie (' III 1 4, 1 If I I s
F t c 7 a ri (I I i I , , t t I tf- ijk at I o I I g TI'Am.. I , iA ',I 'I
~6
N-n i iii( -ir- Ferro e I ec tr lc C a 1,ac It or.,i
( F i v 7 ) Iaf r (-fp4 oncy nu i i F- i
gPliel-ittor (p I k: ) , 1) ) ,it r) kAV S t it
it n (I it (Ic,v I t it w f- s tit t~ t 1 17, v t r
arld -, Sov iet refer-enc es
--i -~ OC I AT I U-N :Kinvs1cly ordena I pri ItinI t o,k~)jf jhwy t
(Kiev lol-'It-Chitl ( a I I it - t1 t
i; 1611 1 .; fjime 20, 1')
r d 12
a,
~:ha I r
'ar._1 . -at e Df --;-- c
I.I., As~ij-arit
I Alic.)ne In-culatiou
i i vy s shLi Ah u c Le bny iLL z LA ve I c,.
Nr 5, pp 98 - 100 C
L_A based on OrFlini-_ ic
by ~)olyor~Sanosiloxanes am of con-1.1ei-O)h ;nL-
ru _'t ~Lese m;tterialv, L:tve good adhesion to i:~Gals, a
rusi- Lanct; to neat which is nearly as good as t1itt of
oi-din i:-y ,silicone resins, and hiGh dryin f--- speeds. 'te sr. s
_,-i be :.odified include polyester-, ePOXiJUL,
vin,~lact2tyls, phenolfoinalduhyaes an 0 1%-,) vf~
_i oces.. of' combined polymeri6atim ~f
(Oilz- anu rtj~'ins) With MonO::.e1-.- DT
can _Il~,o ~-,_`ve tec.,_nlcall-i v,il~.- L.1-'
D o-V~lyme i-i it ion
n 3f _iicurie and LUr. - oil I e
I . ju )oiyort,-anosilox:iro,_ f' i,':, "i-S
_u Aii-uaion `lec~ro-.'oclaiica,
!'e 1, 0 b 0 d 0 n M Od i I' I-
/14
to Moisture jilt fI V,~
in ex
i ( "-I of 100 x 100 ma -.vere i.-, r_ T~ ')T
fluid Nr L, i..uru 3iliconE: wxrni~h
rit _ m, -it
11
0
D_'O C, not Lml,
j,'Ijjur; L I i Wt, -' L' L:, - n vie ie d t r;
U 1.1u.511 lliu i4_~ for 40 ilourc. ru,,3ulL.
.LVutl 11', v'i6vvu 1 an , I L :3e u n L,
j~uer ',K-5
cc)-pol
.
incre,,AL;e buinj, only
Electric
C t E-V r;,- I t
i,e_fult_~ on uhLe m-tterial after expo6ure ;,o :-.3i
i in Figure 2,1 it will b,,- ,~(j n ,'i
I`,j_,IIt V- 71i
t,i . in.iul. i r n - ~rp- - D
iin L, L -fSu p 1, (j [L 0 )ar-IL,--;
C'~ -01" ~ it i,);!:; ; in I
I)OV/14.'~.--)q -5-11 /14
-,n
r, r t..c ;,k,l.'L ind it, expc.:k, -1, to t
L ~i -.er. lLe c c. L iz. -q
Dt..er ty;,eL~. includ:r, ~:tmdard
tn,-, " 'St
i-.,, a i Lt uu I d . ~'he- perf,)ra"nct. of t.. -o i
co-polymer ,K-5 %%as ;)-trti ;1,irly ro-de
lcdl
modified in.:ul n
1 C L ~ JL ij) ZLt, nt o a t - m-, ~e r-
i,oll'ified silicon, in~~A t',)r. hris
i t i s only a qua r t E: r o t h,, rost of
....-~iaLL -,n or, iur,,,
iiilicone co:.,,
CU ~o :.vut )f 'he ~,xdi-'iudl
of .5 -
~,iv L fi(:are~;, 1 o v i
iielektrikol., i )o luurovoj r,` ko-i
J. _ki-Y
inztitut (";h dr C)f
.0"17 ),---LDr,sv Kiyuv
ri 1 8*- LI, 19 "1
--M, - Cand Sov/l.44-59-6-1 1/1
AUT.,C16. .4gAiO&", idate of Technical Sciencen, ;Ocerlt
'=chenko, N.S.--, Candidate of Technical Sciences, Ducent,
and Kletchenhov, 1.1. , Aspirant
FIrLE- Wire Enan"I Based on Modified Lacquers
11E:?IGD1,!AL- Izv,-stiya vysshikh uchebti)-ldi zavedoniy, Elektrorir~k;iaytll~a.
19'19, Nr 6, PP 93 - 95 (USSR)
Ab-~3 f,'IA-.,r, Viiiyflox exiamel based on polyvinyl acutyl has bettfr
physical and i.-iochanical properties than oil-enai;iel
lacquers and so is wid(ly used. Silicone lacquers are
now being used in order to improve the heat- and moisture-
iesistance of onamel wires but the adhesion of silicone
lacquer fiIns to metal and their renistance to abrasiori
are inferior to those of vinyflex. Insulation of good
-.echanical strength and high adhesion may be obtained by
using, modified organic lacquer5 which are -.iodification
products of certain oil-enamel lacquers and silicone
r s-,9 i ns 6uch filuis are elastic and have good re-gistarce
tu heat and moisture.
It has bevii fo,,,Lnd that tung, linseed and cortain other
C,I!() 1/1 oils and resizi5 used to manufacture insulating enamels
SOV/1'14-59-6-11/15
Wire Enamel Dased on Modified Lacquers
react with substituted esters of orthosilicic acid in
the presence of traces of water, easily forming liquid
modified lacquers which can give water- and oil-resistalit
films. In this way, the authors modified the tung-oil-
based insulating lacquer Nr 302 by silicone fluid Pir 2
(polymethylsyloxane fluid). The modified enamel is
designated SK-3. The method of preparation is described.
The beat water-resistance and electric strength of filw
was obtained by using 20016D of silicone.
It was found that films of the modified enainel are sof~je-
wliat better in physical and chemical properties than
straight silicone enamel$. Wires of 0.14 and 1.08 mm dia,
coated with the modified enamel, withstood testing to the
requirements of standard GOST 2773-51 and were found to
have additional desirable properties. The main electi-ital
1)roperties of the insulated wire, after storage for ~,.i:ie
.months, are given in Table 1.
It is concluded that the use of enamel SK-3 for Pnamclii.i.,
copper wire gives a satisfactory product of improve(! ',.cAt-
Card 2/3 resistance, compared with wires insulated with oil-lja~;c,
wAjr~ Enamel Based on Modified Lacquers soV/1114-59-6-11/15
lacquer-m and vinYflax- Tile properties of the product
arc? very dependent on the furnace teraperature during tite
enamelling process. Enamel SK-3 is cheaper than vinyflex.
The following people participated in the work on enainellini,
the wires at the 'Ukrkabel" Works: foreman of the
eiiamelling shop, Engineer Vol'khovskiy, A.Ye; students
of the Kiyev Polytechnical Institute, Zozulya.B.I. asid
Sironiakha. I.F.
T:iere are I table and 2 Soviet references.
ASSOCIATION. Kafedra dielektrikov i poluprovodnikov, Kiyovskiy
politekhnicheskiy institut (Chair of Dielectriao and
Semiconductors, Kiyev Polytechnical Institute)
SUB,MITTED: September 29, 1958
C'% I ~i -)/')
NRMSDT. N.M.
terroel*ctric condensers with a high degree of nonlinf-arity.
I%,v. vym. ucheb. zav., m,lotekh. 2 no.6:741-746 S-D '59.
(MIRA 13:6)
1. Rekomendovano imfedray dielektrikov 1, poluprovodnikov
lliyevskogo ordena Lenlna poll takhnichoskogo institiftta.
(Perroelectricity) (Con!-nnerm (Zlectrl,-ity))
S/194/61/000/007/GII/079
D201/D305
AUTHOR: Nekrasov, M.M.
TITLE: Non-linea, therrially stahle resistances (varistors)
PERIODICAL: Referativnyy zhunial. jwtonatika i rndioele,~Lronika,
no. 7. 1961, 8, a',stract 7 V66 (V at). Vses. Nezhvuz.
konfereiitsiya po teorii i netodam rascheta nelineyn.
elektr. tsepey, no. 2-P, Tashkent, 1960, 197-209)
4
TEXT: Problems are consider,d of the cl. conductivity i.-, non-
liaear semiconductor resistances such as: The effect on co ' iductivity
of the specimen str-acture; thL magnitude of voltarc _)einj~ ap,)lie,.;
teMDeri:tures, and manufacture techniques. Conditions are considered
of thermal stability of varistors made uf technically pure powdered
silicon with electron and hole coiductivity. A table is given of
basic properties of varistors PC3 -3 (RSZ-3), K3-T (KZ-T), K-2H
(K-211) and 1513, together with the voltempere and cuTent tempera-
ture characteristics of non-linpar '~arrfpr laypr resfVtan(_es of
C ard 1/2
Non-linear thermally stahle ...
various origins f' ures
Complete translti'O.Y
S/194,/6lj"O00/,-)07, ") 11/079
D2()I/D305
6 n-ferences. ~-A-stractcr's .,,-t,:
V(j
Card 2/2
h q 4
4L/. ?'700 S / 1 3 9/1-0/000/01 /0 3 -/ 04 1
FLOI/E'191
AU'rHOR Nekraeov M.M.
TITLE
r V'w 1 ~iou
s Non- I int-arit ie,; . based on Ox ide
Semicondur- it or,3
PERIODICAL Izvest Iva vvsshikh u( hebn~kh z,ivedeni v F i t 1 1,
1960. Nr I pp 11JI - 196 WSSR)
ABSTRACT- Oxide Semit, ondw tor.-i can b(. ijed to produce resistor, (if
a nd 14
1
't ype P r e s 1 4 t 4r) r 9 1 a r z v (I iari p, (- ,.I
n typp H
T1
1 U
the cury pnt at t- a, t om pan i cd b v v ~r s- -4ma I I c hanQ,- ot t t).
voltage In typt. I? r,-si-tors large chanwf-~, .)I t h~
I
vol tage ars- r equi r pd t o produc c- it -4mal I change .f t h,-
current T)i ~ non - I i ri o-a r i I v o I T h es ~, 4 1 S t ()r ~ I - tji,t i n I
due to ini it-lti i~- tnor~unil%)im - x 1 1, 1 7, 1
f Leldq also tric rf t hP [11 t, I i ii f-a i 1 1 v I . Th, i rit ..t ri,i I
U I p I d i nhonto i, p n t- i t I c, - a r p r ,I u, #-d 1) y in appri,pr i 'A t ~-
9 f.- I Pc t I ) n o t t h i, -, (,m I i it,n and b,~ ;-j ?r ,,s i m n i
particularly dnnoalir) ~,, 1he creat~-t non-lin-ar i v i
obtained whpn rl)- tnt --rn,il fit-ld r , .1 1
thx-ir maximum diio to 11)( ;,r ~-- ont - -I ) ba I r I f I I 'I f,T
C a r d I
R'~s is t or 5 With Val )oil, Norl - j lilt- it it I--- rl I I - I I I
I R t )I ~ I) 1 11 1 - I v 1, r, w,- i I. p r r
I rl,L! fit I., -III ()I - 000 R V'/( I ii,11 r I t i I it,
00 C I ..r jp I h, ,I r F I vt I I r ~iri( 0 PLO
ll;jlc() pl. ~Irl( PIA) I t V 400
'11%, - r t -I Pl~o in I tlit. ~-In(_O Pbo
i r k 11'. 1 r I I % I' I , '- - - I a T), f
F 410 1 Z it(
-w
P + A I NIO
I I ,,. it
it I ~i m I
r
I its
(4 . ~ #~
~ 1 0 / f, 0
Ro- 1~tr,r wit it ~;,j 1(,'A- '-rl- J111. ~%t It I,- E C, .n, I
t r 11 it v in I x I it r It ornpoiin,j~ I t a 1) o
I -r - W.,r v la .,par
of t, ypi It I rom N 1 0 11j)o
,
r oa - 111V al '400 'Ind from -S10 PhO I C
I f f, I) t - v n 1 -, I .I -I ti'l " U f I k!II t Piril". r a t U I f. C -4 1 16
PhO ar ~lkowl. I n I. I !tIr - 6 arld r pu t t I v,- I v
T 1) P r i- i I i, I v r a I i (I f) r p I r it p ~4 w h I 1 11 a I
s I, v I (,I I, I I It a nd f o n i n ~~ f r om En I ~ h I n I
Hit I ;ln
ASSOCIATION K i v r. k I v po I i t r, k h n I h u- k v i ri I I tit I K I s - v
Pol e( 1-1 tit vi
S U13NI I T-F ED J it it u,i r I it I I a v
it t, 1 1 M
C a r d
LmMASOV, M. x.
Im roving the ciaracteriatics of ins,ilation cera--za t7
ing their inhomogeneit.79 lzv.vy9.-icje~.zav.; `z. n . 3 : 1 3
160. (MIRA li-7)
1. Ki7evskiy politetchnicheaViy Institit.
( Cer a --d ce )
(Klectric ina,dators a nA Ina dati on)
2 ~82
AUTHORS
TITLE
ni-krasr,v , M. M. r 1,;
The rojpr~
'T'P ry SyOom Ba
I rr,t (Ti.Zr.3'n',0,
iE~410DICAII F i z ; Kit r tol ~i , ' , , , 7~-,~ . e , N o.
TEX T . I r, t r, e pres en t wo rk ii,,mf~ i ro h I em,i !, f t r,e r-~ ;,a ri r~
3 -4 1 gP e t t -) P I e c t r i ~, c e r am ~ - .9 w I t n I a r ri (in - I i n e a r y it r, I ~ it r y
smal 1 1 0,99es are i'~ ic,~ 9,, ed The r, )n i nPar I ty rani C ;I, r:i
great importance i7 rad--o-el-tronics. The propertpo , f r-
'Ba,Sr',Ti0z. BaTi,Zr)uA. f~ () 9 0,
systems and Ba~T.,5n,(.)~, wt..,!, !i , ;k
non-linearity, werf, ;,reviouslij studied by -3. A. Smr~:en:,k:y ~T -t,
Khodakov, V. A. 36iov, -and T. N. 7-rb-. -,kaya jqs-fs. n t q
of t~~ese systems, ron : near 7a; !i-it~-,r3 - !ne sr,- vir~-;11 _1~ -
are ~~ou,mercirtlIy roj,~ce,j. Trej r-1v.. ~ .~ wever, 3 G M- V f - -Wr
reasrin new materials witn bett,.,r ~,-.Pert '.Ps are '3, tP
withorr, *,nvesti,,ated many J~ffpren- -mi, -,' ,(,n,3
Card 1, 3
~296?
Th~. 3-;~Jpnpt t )P. ' ec t r I r-,~p rt e i
t I r n q o f t hp T; r-na ry SyFi t m B;L T i Z r r,
n I r; o r I er r ' r, m
insi xi mun nim - i T wit i -,irv" r
Op mm r 0,
tirt. -,ng mato r I li~ t n it t L r. q
y r, n-i,: zel fit ' , 0(~ !,q-~,n -w 14 ~- fn j,*, r ~t I ~ ; , , -
!ie - f BaZ r 1) BaT W
r Tn-- 1, ke in -.!n r t
s t I n rif p C,,i r pi i r t n #-.T pe r a t u r,--~ r f
r rqp, - ~ I r;
i ' symme ed ! r, I
na . '? ,t r~ , rl
q xamp -4 1 ti f,) in I t. t a n I n- rl. a ~ i f z i r - - r. a t ~ I
1. r-, e - I i c~ nt whi . o the ,~ )* ~-ars
Thii s tho. f tir,?f- t rFAn.9 1 t Iona n.-v-r n I e
t r it nz f i n v e, 3 y S t m I.e ret"I"T n w
s u a - n -. a rp f 1~rd 1 9 P 13 1
m t to Ba T rr. e r ii r Pd ff ~i n ~-a t r; - 7 -.7, j.
B'A 7 1 3- 1 Z:
It. I or e r o v %a r i r
QP2
The Sei,,ne~ tneie-t ric . r it!s p
~)ol ut i on s nn- To rna ry 'ip; t ,rr, 4,t T~
The tomporat u re ifi,i f ro pior-j J.,~
i n von ~ i gn t edm Ame r
n T a ow i n~- r- 77
o -q ri r, . " , 'I
mqx, M
w I I m WkIi
f ar, (I :',i r i r -
e r e n - a 9 i
ST,;BM',TTE:s ~m~
0 306 7
A UT ~;OR - N-K rq 9 M --N.'
T IT L~ N n I i n Pa r i t y r 1) o r.,i n d,,Am a s s
PKR "CAL - I n z h e r, e r n,! f I Z I C h P 8 K I y z h j r n a
PP 82 d4
TEXT : According to In,? a " r. nt. mcv e n t y i r rP d
trip res 1 s t n r c roe 9 s er t i on has t, b- rega rd-4. as ui? t, f
linparity if carborundum resst,~rs The pr-c-rt pap-r ;- v-3
assumption Samples of elertr~-?echn.,al s,:. ~-,- -arb~,,e ana abrqq , v
all icon -arbide were used Mo r. , - r,' 9 t a i a o f v ', ~c t rc t (- : r- ~ a : s i i -
-7arb ide ark, kn-)wn t,~ nav,~ -~-r. ', inear vr) 1 t 3mi,-ro c ha r a - ~ r i a M
crystals .- f abrasive si earu,,d,~- pr-d,.i(-Pd I,j *?~P Za;
abrazivnyy zavod ~'Zaporozh ye Abras ivq ia-tcr~ he v~ I i r. Pa r v
charact-ristics The samples i7~pr- 13 9 S 1 ~ 1 f-, t V ~ V S ri
group was subjeted to snocK annPal ~, ng the second was s rw ~y n eat - 'I ,
annealing temperature All samples r-nsist-d of 90% -arn.,le ir-
10% ultraporcelain Thf- v- I t amper- -hara '-tr i .9 ' i cs i r- 9h ~wr . r F.07
C'a rd ' 11; 2
0 rjI
.~ar i :a r:~or ;m r
h 7
The a ut hor ronc I i(Ips f r~~,.n r-3
r s I i t o r i g on up t r r. m, r. Pl 1., 7-
h,,gher the inhomogpntit~ r a 'T, e w r- 7 - V
which the rps ist- r *s nrn: r.pa r- A 1~ r a .9
shock annealing -an al.,4n r~ q!, n r I
, I T. a -r-:) '13t r) T~(-
I - t rc; t e ch n a 1 8 1 ~ I c,--, r c a rb i d in s t mer v -, : t a R fl,13
abrasive silizon carbide; tne latter -.xt n i g h t rma j
There ar~ I f igurp and 2 Snvi,?' r-'
ASSOCIATION: F c, I k h n 1 9 K I y . rP
;~V
S"_'BY. 7 T-. ED Y'a
SIMUSOV, Mikhail Makarovich, kani.tekhn.nauk, doteent
Determination of t.~,e abBorbtion coe"Icient of nonncmo;-ero,-,B ~ielec-
trice. Izv. v;rs. i1cheb. zav-, elektromekh. I no.1:131-.4) 160.
(MIRA 13: ))
1. Zaved-q1ishchiy kafedroy dielektrikov i poluprovo(inikaw Kiyevelcogo
politakhnichaskopm instituta.
(Dielertrics)
80157
Z4, 2 Loto o
AUTHOR: Nekrasov, N.V.
TITLE: ionlinear Capacitors on
Electrical Syst;m-;-;<
S/105/60/000/05/16/026
B007/BO08
the Basis of Ternary Rochelle Salt
PERIODICAL: Elektriohestvo, 1960, No. 5, pp. 76-79
TEXT: The following characteristics are demanded mainly of nonlinear di-
electric elements: great dielectric constant, great variations of the
"reversible capacitance" and small dielectric losses. A pairing of then*
properties is possible with the ternary roohelle salt electrical system
(Ref., FootnLte P. 76). furthermore, such systems also allow one to obtain VY
the necessary variety of characteristics by a suitable selection of the com-
ponents. The advantages of the ternary roohelle salt electrical systems compared
with the binary ones are shown in a table. It is possible to obtain special
rochelle am!'. elements for the solution of certain problems, such as the measuring
of the 0imperature with static pressure, on the basis of ternary rochelle salt
electrIcal systems. The use of nonlinear capacitors rests on their property as
followi: the capacitance of a capacitor working in the &.c. circuit depends on
Card 1/:
80157
Nonlinear Capacitors on the Basis of Ternary S/105J60/000,'05/18/028
Rochelle Salt Electrical Systems B007/BO08
the d.c. voltage (reversible capacitance) applied to it. The reversible
capacitance is the effective capacitance, if the a.c. field Is superimposed by
a d.c. field. The reversible correlations of the ternary rochelle salt electrical
systems on the basis of B&(Ti, Sn, Zr)03 are shown in Fig. 1. According to the
amount of the a.c. voltage applied, the reversible nonlinearity also varies. This
is the relative Increase in reversible capacitance of the capacitor (measured
in the a.c. field) divided by the increase in d.c. voltage. It can be seen from
Fig. I that the greatest nonlinearity occurs at the gradient of the a.c. voltage
of E, a 70 - 100 v/mm. The reversible correlations were investigated at various
frequencies to test the possibility of an ap;lication in the practice. It was
found that the reversible nonlinearity is not great at low &.c. voltages (up to
50 v/mm) and varies only slightly with the increase of the frequency of from
50 to 1.1o7 cycles. The reversible characteristic do ends on the frequency at
greater gradients of the a.c. voltage (E, > 100 vlzm~, this dependence becoming
noticeable already at sound frequencies. The reversible nonlinearity of the rochelle
salt electrical systems depends on the temperature of the surrounding medium
This correlation expresses itself in various ways at various voltage gradients
(Fig. 3). It is shown that the nonlinear capacitors should be used in the range
Card 2/3
~0157
Nonlinear Capacitors on the Basis of Ternary 5, 105/~O/000/0~/18/028
Rochelle Salt Electrical Systems B007/BOO6
of from -20 to +70'C at high voltage@. In this case, a great steepness of
the reversible correlation and smaller losses are obtained The curves In
Fig~ 3 show that the capacitance of the nonlinear capacitor does not depend only
on the a.c. voltage, but also on the d.c. voltage. The a.c. circuit can
therefore be controlled with the aid of the d.c. voltage or with the aid of
a slowly altering signal, An amplitude modulation of high frequency Is obtained
in this way. The following remarks are made In conclusion: the ternary rochelle
salt electrical systems give the possibility of obtaining elements with the
necessary properties. Since the tg6 - maximum corresponds to relatively low
temperatures and the dielectric losses decrease strongly with the further
temperature rise, a quick stabilization of its temperature sets in with the
operation of a nonlinear dielectric element. The individual properties of the
dielectric elements can be strengthened on the basis of ternary systems and new
possibilities for their application can thus be obtained, There are 6 figures, 1
table, and I Soviet reference.
ASSOCIATION: Kiyevskiy poll tekhnicheskiy institut (Kiyev Polytechnic Institute,'
SUBMITTED- October 17, 1959
Card 3/3
F1,116R
5/13')/66/000/00~VC,
9, &0 3 3 E073/El.~) 1~
AUTHOR: Nekrasov, M,Y,_
--- =nMMMMM_
TITLE: Non-Linear Resistance
Films T\
PERIODICAL:
based on I'Lin Ha-cid ~;(Dmpound
Izvestiya ;ysshleh uchebriy,:h zave~en,,y, F,.zi,,a.
1960, N( '~ , p P 14 j - 14
TEXT: Resistar,:es pcsSeSSIr,~.*
C,haracter;3tics at .-ory .,.w appi.el ,c,.'L1a9e3 -ar, te _bta,i,f),,
subli.mat. t~je'laye' /
t r tl~ r,~ r
d1rectij AJJ:,,cerJ t;~A w .1 iiffer frum uie layers abt,,ve 1
and tfiere I, re ~, t ss b I a i pr, 1,~_~e a 1ayere,J spe,-tmen
wi th a ri, ,,-;r-f :~, wither, tke bc.dy "r the
f 1 Im 5 f thir.- semi~~t,nducting
films is triermal sublimati,_r, of nai,,id salts which ~~an be done
without va,:uum. The films (,btained or, tne metallic base will not
be pure halold ~omp(_,urids but a mixture (if halold compounds with
the metal GX1,Aes, It is best tc -arry out the prrce-3s in spe-kal
furnaces in wn~,:i the base ar,d tne substan.-c- tr, bit evapCTated
(sublimat;d) are' fteated separately In suc_:. a case it 13 pcsslble
to contrr..1 Me temperature not ,n-ly r-f tne substarice to be
Card 1/3
Pq68
S/139/66/000/005/024/;03i
EOYE13~
Non-Linear Resistance Based on Thin Halold Compound Films
evaporated but also cf t,,,e base, which is of considerable
Importaril-e The quality uf the film is affected not cnly by the
temperature but also by the material of tne base Non-linear
resistances were produced consisting (,f thin fj.'ras ,f haloid
compounds with a relatively low fusi(n temperatu-e. Ncri-Iiiiear
resistances of the following films were () b ta i r., gI- lilms
(0.1.-0 2 mm thick), CdI-,, CuBT-, KgCi
-, FeCII, rhe
,
resistanres as a functicri of t~e r M 5 voltage for 200, 2000 and
.1 -00 kc-Is are plotted in Figs 1-3 ~ ~, rfi.Ims of the first three
c,i tne above menticned componenti , Th e non-linearlty of the
volt-ampere characteristics of these films is attributed to the
fact that the here menticned hal(I-Id substances react chemi--aliy
with t!ie base, as a result (if which layers if varying resIA.-irc-e
are (,b*lained; if ii~ addition the3e layers also possess differing
typps (,f - rAuct--ities the film~i will have rectifying properties
Some of the films al5c have high elertrir strength and theref(~,re
extensive practi--al applicaticns dr, be anti,_iPAted
Card /,
: J"p
s/, 3V
EC;V
Non-Linear Resi:;taz,-e i~a3el i, T1.1i ~iq- F. lrr,
There are 4 f igure3 and 5 S, es
ASSOCIATION ; Kiye-. -ir:. y
SUEEITTED: ~Kiye-i
De - r-,m ~-:- r
Fe t 7
hEKP-ABOV M.M. ; KOBTSPI , Yu.D.
Nonlinear oeignettoelectric sYrtems vith several Cl-rie te=~,.,returey.
Ukr. fiz. zhur. 5 no.1:75-7F Ja-F 16C). (M!7-,A 14:6
Kiyevskiy prolitekhnich-skiy Institut.
(Ferroelectr!cIty)
Aici)
R4, .2
AUTHORS: Nekrasov, M.M., and Siromakh, I.F.
TITLE: A Device for MeaBurlng 3tatic ar.! Dynarrl(- Preqsures
PERIODICAL: Byulletpn'
TEXT: Cla8s 4?k, 1404, No. 1 "64,; of Af~r
In this device the mf-in,irlr~p ellem"nt Is ronr~ectel Into a brIije
circuit. The novpl lov! --Iro i,~niillivp, for ,,ur;oge it
is fitted &,1h q ferr!t- o' ~i 'oro' i,,tl shape, teat 1,,tk-s up
the qrtivp loads.
Card 1/1
9' Z v 31
85019
A TTT if OR S llekraflov, a'j
TITLE: 30 "L 3
Ba Ti 3n try
D 1-7 veLl I.Y n
V 0
iy%
TFXT:
a -1 t nc r:;t J
ed
-
Of t he 2 ,
r
,
, ,
r
t
kvt.
F
-
r
4 r v
e r
-111(7
r-90 t
-d D
:-
'
"
,a: ,
. 1j an
85019
n r./
T 1 , Zr, ~r-. ,
11. 7.,11 r,,- ~A r it
r le~ey t t ~;e v e
E U ta c r 0 7, S
/ t 11 d
max
j t no r ~j Ba,Ti r n
ij twnici. NP C- cm kv for f MLLX, Eman j
weak f ields, and tan 9 = U 11~ at a maximum. The present
tn- Third --~jnference :)r. ~ iozoelectricity, W~-iCj.
'N from .'anurtry o Thf-re a:-t,
vi,~t
_NFKRASOV.- M.M., kand.takhn.nauk; SIROMAKHA, I.F.j CHERF.DMICTYNKO, 'I.Ya.
Inducticn instrument for measuring static and dynamic pressures.
Avtom.i prib. no.1%91 Ja-Mr '62. (AURA 1513)
1. Kiyevskiy politakhnicheakly institut.
(Fleatric meawirementa)
z, ())r I'l I II C k -N vA r1 j (IVI
f 1 T L
Lr It I r-, I
ii tr r
t V
e I I tit- 1, rP 'i 11
r L! c t., rt- i I I II ~r~; t0
c oil v I I Iit r f- r
f i -,n: r.i r i
t~
16 t I I f i f If -4 f. . s I n A v
c n I t r V i Lt i v i y a !4 I'mi t ioti I
C a I /
i a L Ll r' o 0 1'
t
r a
w i s r,i
i ti i r r k- r i fl c
! v
I c
r 1 4 1 rl I I
t LI v ou r
AW I T iv o
v n I tut k Y f- 14
INMRASOV. M.M., kand.tekhn.nauk; PUFLAVKU, Yu.14.
Forroelectrit transducers. Avtom.i prib. no.1-59-62 J&--Mr 163.
(;C?A 16-3)
1. Kiyevskiy politelchnicheakiy infititut.
(Transducers)
WH
wc WO 1000 la"m" 11
I Owl Was AM. ON
111~ .44
AgMs Ishnwa I. m., Be
TMI Gspnltw awadow
GIM ~h Ob. Waim. pretameay I taidmol. gorm. mmhIvmtr. Dwskow,
thwebov*4 IffbAs ;wI
Um"Ims It Is repwtad that if ftlil~ owmic ~* is proomed &lang a
00a Um bet with laWflatent aftlAsion of oxygen. the result Is a
thmUmUy stable awavlas of 2~2106 farmala. Me dielectric-oonstant taqwatwv
cooffisidat of MUM& -GOOM Is JS or lovers dielectric oonstant, about 500
tgV wItUn 40- )W Is 1$ w Imw. rbe dielectric omwtmt In = alectrim fWA
of *)o.-7W j/= IS pr.,jt4-111 laftemidant of tbe field strangthl tg# grow
from I vp to 4. witma 0,404f Rp"Ummaquatric Sonstant in W%Mdmt of f,
Bell% im room="" tw taveratfalestdas oarmic capealta".
wo so ono 00
NEKRASOV, M.M., kand.tekhn.nakjk (Klyriv)
Control of thn -.hermnI rqsI,ihnce rArt,)r f-,~ -
Flektricheatv, no. 4 t ~Z, j-A/. Ap I iv. . 'WRA I ": .
N 'J"I (".- I ~ ,
r. I i . . - . .
, . . ", : . . . . 1 .1 . r - . . " . . . Z -.
. ; I I :.. . '. - , , . r * r ~ :, , , : , r : .1 ; - .. . -
,., . . .11. 1 0 ., . . I ". . .- I .
L 2996-6 LWT(u)/ViTM/EW1?(t)/Z7dP(b) JD
ACUSSION St AP509125 M/0144/65/0001007/0034/06V-'.:
50.12
AVTHMj Nskrazov, No M. (Profeasor,, Read of dielectrics and semiconductor dept)
T17M Tjdn-filmferric-chlortle ncelinoar resistors
SOMCZ: IM Elektromeldumika, no. 7, 1965, 834-037
TOPIC TAWt varistor
ABSTRACT: Phenomena iwawpiring in thin-filn eadconductor varistOrS, Such as
lattice-typo thermal conduction, macroscopic Wiamogensity vs. electric
conductivity, etc. are briefly described. The twist experimental results were
obtained with a 0.005-0.002-go FeCls film deposited (b7 sublimation) on an iron
shoot in 1.5~-2 hre at )DO-31Mg, with a toVersture of the backing of 13D-140C.
The variator had a clesirly rmainear resistance at applied voltages aa low as 0 5T
and could withstand temperatm.-es up to 70C. Orig. art. bas 1 3 figures and 5 f0"
ASSOCUTIMs Klymbly politekbinichaskiy irAtitut (Urev Polytechnic Institute)
Sunw-T I IM"61 =CL3 00 SUB C002 I IC
W W awl 004 OT t M)
Mi k
t r oi
rP
i I i A 1
I-, s o V
i'ii cii r r- -riL F] f I L
2 1 S S t i T 101,01" Wl,y~,~
I
YOP, At),S. I ii2-
C F Vcstn. K
V.11
-"I': A cornposite tri~,sistor (-Ti s ~,n
hrt-ctly (.,)I, weti-d 4.1 wtrodes. ~;I-i
i)r r,)()j ;Istnrs W)t)
,eCtiol-, pr(-,vj(jCS a wicie %ransillissit)II a (,-c anipill",( jjtj();, factor A,i,;.
:ncrease iri current. close to unity ai , an input reiiisLarce
input 'D f a vacuum tube. A two-trioile CT circuit and e6timates O'A its
C.rd I / 2 UDC: 621. 382. -071.72
ACC NRc ARG035 131
Stability ar,- j, v,-n. An ijiver,if, "our'd to (.X,st
coeffic,ent of temperature stai,ij',ty S ;,nd tiw li,put resisterice R,.
doLa are griven in tabular form on the ternpurature dependencf-
III)(-)Ijnt only to a f-~w fractions of one percent with a 60K chirge in ',t i;,,)
Lure.
Thf-re Ls a bibliog.-aphy of 3 titles. 'Translation of abstract',
SUB CODE: 09/
Cord
ACCESSION NF.t AR4046915 S/0058/64/000/007/HO35/HO35
SOuRCEt Ref. zh. Fiz$ka, Abe. 7Zh244
AUTHORSt Nakrasov, M. N.r Poplavko, Yu. M.
TITLEi Investigation of nonlinear ceramic ferroelectric materials
over a wide frequency range
CITED SOURCE: Izv. Kiyevsk. politekhn. in-ta, v. 40, 1962, 26-41
TOPIC TAGS: ferroelectric material, dielectric constant, ceramic
dielectric, dielectric lose, domain structure, relaxation process
TRANSLATIONi An experimental procedure is described, used in the
investigation of nonlinear ferroelectrics (FE) in the range 0-1010
cps, and d:Lfferent methods of applying the control voltage are in-
dicated. 'rhe influence of some technological factors on the dielec-
tric properties of the FE at different frequencies is instigated.
;CWd 1/3
ACCESSION NRi AR4046015
The frequency dependences of the dielectric constant E and of the
losses tan,5 of ceramic FE in weak fiells are considered. It is
establishel that the dielectric constant of an FE of any composition
decreases with the increasing frequency in the range 0-1010 cps,
and most sharply in the microwave region. Tanb usually has a mini-
mum at frequencien 104--105 cps, and increases sharply with the fre-
quency in the RF and in the microwave region, owing to the domain
relaxation process. A fixed ele:7tric bias causes a decrease in E
and tan6 at all frequencies. Depending on the electric field, C
changes by 3-4 t1mes away from the Curie point (by 30--40* lower)
and is practically independent of the frequency up to the microwave
region, where it decreases, but remains equal to 1.2--l.4 for sev-
eral ferroelectrics. The froquency characteristics of the FE are
greatly influenced by the technological regime, particularly the
annealing temperature, and also the brand of the initial raw mater-
ial.
card 2/3
ACCESSION bfRs AR4046015
SUB O)DEi 38, Rr ENCLt 00
Cwd 3/3
- . - -- -1 -- - - ~ -- .- -- -
". ITEJULASOV , 114. V.
Techmlog-.-:ai proceBses izi nachining ~ydrauiic cylinderb.
Stan.i Iruitr. 33 no.il:20-22 N 162. ( ~ : -, )
(Metal citting)
NEKHA.S(V, N.
r. ' - " ! .111 1
~ , llrerl.;, 1 J-,.-v -. kf ~
-f I - !.", I .'' . 1, .."
1, . 1, .1 1 . 4: . ,- - 1 - -1
'P. A
I r - . -."P, ~ - '. - 11, . . I r "
! , . . . . I. ... M.- - ". ~ .
PIEKRASOV, N.
fieview of -por'-a work. 7oeri. znan. ',, n-o.1-2:"-15 D `,'.
(KIRA 1-1: 1)
1. Predsedatell Novosibirskogo oblavtnogo komileta Dobro-
vol'nogo obshchentva sodeyttviya armi,, avinT.Bil I flotu.
NFJ3UWT IVANOV. S.1., redaktor; KARTAGINA, H.S., tekhnichsaifty
rQ- tor.
[Orgimizatiom of defense work In scheolej Organizataiia obarennot
raboty v shksle. Mosirva, Izd-vo DDSALF, 1956. 55 p. MRA 9:6)
(Civil defense)
NX3ASOV. V.I.. iazh.
Prooventing, t&i1ifiring of potrolmim M19tal-cuttlac torches.
Bei.ap.truda v prom-. 4 an. 7: ;15-26 -T1 '60.
(MIRA 13:8)
(Gas welding aad cutting)
The offset of delayed addition at a M-forresilicon an the stmtw*
of cant fron* at varleas sentents of basic elements - carbon and silicon
and, various- noafter dowspaq sa* Investigated. This affect of nodi-
tioation we estimaW by ~ sompasift cast Iran samples, p4or and after
addition of the. modifying agwVtAdeb dump* Uw *ban. cawl-96ition of
the cast iron. The effect of the modifier an the change in cadt Iran
etructurs relat-kre to the C and rpi oor*Amt In the cast iron, is explain.
ed. Ton" US= re Verences W41-1952). 'Tables; srsphs; illustrations,
Institution -i
31dVatted I
N L KtOl,(' V. [4. Y,
STM, B.V.; NMKRLSDV, N.K.
20"A'.A.
Influance of the o:ddation of cast iron upon the effect of modifi-
cation. Lit.proiz-r. no.9:18-20 D'54. (KLRk P:2)
(Cast iron--Ket&llurgy)
SUM, B.T.; Aft-Mw-MUUJmndid&t WchnIchesirtich nsuir.
Characteristi-is of graphitisMion of c&et iron during Its trLnefor-
nation by warlow addition elements. Sbor. Inst. st&11 n0-351389-
416 156. (HISA 100)
1. Kafedra toorti. notallurgichevirikh protmossov. 2. Chlon-korrespon-
dent AN SSSR (for ftark).
(C&st Iron-Metallography)
I r j Ti ~ la t i on r () rT, c ! v r A r -,j
A U I HOR IN e k N E ,
.AL
I I I L E: i o h c I hc r hm~ ilati,)c lr-,f. K c- r 1,
va t) ir e , h, i ki
P E R IOD 1 1, Sh , r Mo vt h ry,wa iti I '$ T J)J,
A BS 1 11 A F A rv% c%k w prt-ero d,i% iheoriv, ot iTl(ll 1141 Ili! 1 1 fit V
--vrill-d Arid the tAi, rv, -)gT% t z, v (i -i v o r v i ( h r v i rd , k~t- 1) r
c ; -, ci I I a ~ I I v r v s ~j I I () f I h - j I u #- i. v v a (I (I i ~ v ~ 11), ) "
ry std)h za I .(w pit rarricters. na ITIC IN' . t ~j c r) 1, lea ? 1(,r, hy p .1 jj4- - 1
~Nll) -T-d tht , (i I ( ) r J)! I o T) lilr-) hypollhc-,i~. art, sit)iv, led 't) r
i, a I a ri-j !,, -; - Pri,ot ., t(kan~ ed o' the (J! 17,v,
1, t) app);, at,(-n )l cilhcr )I thf-v theorieN 'o lt,v pr- c- t,t ~rw
h t r a I i i za t I or) 1 0 1 TI, 1) 1 1 k A t Cd b ". ~j r a p i~
o1 --jr)oi- Su%)ei mveoigators arlherms, it) thc NI-I
and to tho- ad-orption hirn hypothesi,; are , oryipared Aith the
res,il', -,! ,1w itilhor , experm,criyal ITII VITIRAI ~Oli J)F-t ItIT II)VO
b% addoita. t)! vraprwizing and , drbide-nhiti.l riv,
t h e t7l t I 1 11 -J () I i ; (I A 1, 1) C d r I ha , i ii a k P r if, v i r it
C,i r i I I ro" mh(.jT)og#.I)f I)v, ;T) Ihs. , or" -I ,rld,d -1-
',H 4 h_' ~,4
I o I he I It.-() ry of ~i ,I r r~
r?A-TI' it) fill- 11(11JId I' h ()IT IV n, I co - t, i it - onk v n I r 0, )it I r~ i I. d I!, I
vo I ume Depend o4 ~.por 'ho- ',I , , (,I thc a(idil I% v. vithf- r -t. r, ., -
1c nd em o I I it C I I-.V ' I - )- I T (I v I gy v r i p i, . I . z A W1 o r t d v r v 1 ~ vI c I t i I I ,
k It r F 111 s a I t a ; ; , ," I)' lilt- p'o~ - - I to k v , I po , s 11) 1 v o t. 'K 1) 1 it I . j, ~ ) 1 7 1 V I
tIt a t a r 4, d ,f f i t k I I II o (- x p I d 'I v I It - N I i . I h v ph -- n u I Iv imt, t If dvii)k)d i t I)I o
,i dd I t ion (I, bol 1-, g I , ph I 111) rig it nd li r 1) id e - a b i1 , z 111 g M04 1 1 . A n I ~I , pi t~vd
the ( on-miequent e (-4 jyi vititial )I III thf. heTT!:( a] 4 oryip~.,11'm '. h~l it c d
,I It kit) mod i ed ( o i r v r v ii /,j t, ! 1, t. . ron I ht, it : I r~ , * id I f it c
I m kir-n I I Tit I ha I I it le" r thu wrod it I on of t h e :ri-)( i1a r
r ea 1, t tit 'lie lell. I he I I v rnoc., of :not Aat,, i, m( I f' -1 ed
n I etf,~ t Ahen ox~c ./,ci td e nd -, I m t I , r m;1 t v r - he.
x pla I I. a b I t: - I h e A 1 l '~ I h t- 1 rite, h~rtl of , ron 'A ~ I t, I I q i I If to
o( ulant, I., noted po,rited o.i, th4t C), S a n d j I it v r 17 A r
in),, the ~Irvngth ul rmnd, 1.e.,t r. ze the I ef'(-( u'
),v r a pf I '.i r e r c n e
C - rd 2
0 0 00 0 & a 0 0 0 0 0 0 0 0 0 00 0 0 0 0 * 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0
0000000*000900*0000* 0000000000000000*0000ee
b a 6v a w a41 Q a
I A
POMA09006
go
ppju~.Jd big 91"ll
Apo% uMjvuAk)~j,Alj
-qf&j 44PA"I '"-V
00
00
00
00-
00
Ov
0 a 1, ft a aAaa a n I w oil. Ols"CItil.6II
goes* 0 a 0 0 0 0 0 000 0000
0 so go ) 0 0 0
in
Iii-m8ov, gikolay Nikold~~Ch.
Natural gao production In the Soviet national economy Moskva, Gosplanizdat, 194C. 1)5 p.
map. (5C-46899)
TN9&. 545
gaawov' mikola~ gikoj-4ftch.
Now types of fuel Moskva, Gosplanizdat, 194;. 21 p. Narodnos khoziaistyo n& sluzhbe
otechestvemoi vciny (49-32531)
TP343-114
HFKRASOV, Nikola~ NikolaAvich.
Substitute petroleum products Moskva, Gosplanizdat, 1943. 59 p1 Narodnoe khozp1stvo am
aluzhbe otechestyennoi voiny (48-35391)
TP343.N43
ZHITKDT, D.G., kundidat "khnicvmskikh rimiki ITFIMA50V, U.N. , inthenor.
POSPEMYV, I.T.. inzhen#-r. ftoftww,~..
Zxitmination of worn steel-wira ropos. Vest.mash.27 no.?:?)-30
JI 147. (Wiro rope) (MLRA 9-4)
pj r- K K 11 - r 1, ~ i i J
I . . I - 10 1 -
kQlpy, Nikqlayovi ch, pr
tokh-nich-gakly rodakt,-.r.
-.IOMJ Fit, r7 ir: '~hn I rd%st7 la - P--
[7he Increasine role of r~
Rumstals nationpd economy] lCr' L- I vif p 'I a P7 - i ZVOd S *.0-- r -7
v rarodnom kho,.,Iatatvi SSSR. Moak-va, Izd-v 10 p.
(Veesolur.noe onahchestva, po rasprcatranenillu poilticheak1kh I raiuch- W.
njvkh zaanil, Ser. 4. no.2). (MLRA 4:4)
(Chemistry, Technical
w-0
IW=
wvd
RRIP
R4'~'.H -4
41
MY
2A.
IN
D
PHASE I BOOK EXPLOITATION 370
Nekrasov, Nikolay Nikolayevich
Ekonomika promyshlennosti i tekhniche9kiy progress (Industrial
Economics and Technical Progress) Moscow, Cospolitizdat, 1957.
116 p. 25,000 copies printed.
Ed.: Antosenkova, L.; Tech. Ed.: Troyanovskaya, N.
PURPOSE: This booklet was written to acquaint readers with sow
problems of Soviet industrial economics, and the effect of
technical progress on production increase, as well as the
locational shifts and concentration of industrial production
in the USSR.
COVERAGE: The subject paper reviews some industrial economics problem
in connection with the accelerated technical progress of the
Card 1/3
1&4~ U.3.t%. inere are no references.
Card 2/3
PHASE I BOOK EfJ7WMTT0N 67,-
Nekraaov, Nikolay Nikolayevich, Professor
Ekonomika khimicheskoy promyshleanosti (Economics of the Chemical Industry)
Moscow, Goa. Izd-vo "Sovetskaya aauka", 1957. 396 P. 7,",00 copies printed.
Ed.: Eydell-n, B.I.; Ed. of Publishing House: Llpkina, T.G.; Tech Ed.: Tit'ov-1, L.
PURPOSE: This book has been approved by the Kinistry for Higher Education of ','Lv
USSR as a textbook for industrial engineering institutes and departments.
COVERAGE: The book describes the chanEps in the grovth anl scope of the Soviet
chemical industry. It emphasizes the interrelationship which exib'.: between
engineering and economics in the chemical industries and in the different
branches of the chemical industry. The book comprises 14 chapterB which deai
separately with the growth, location, structure, capital and labor, and rranakr-
meat of the chemical industrr. It also discusses planning and the rates of
present and futuxNe development. There are no references. No personalities are
mentioned.
Card 1/16
5(0) PHASE I BOOK EXPLOITATION SOV/1406
Nekrasov,_NIkolay Nikolayevich, Corresponding Member, U,,-)R Academy
ience
Khimiya v narodnom khozyaystve (Chemistry in the National Economy)
Moscow, Izd-vo "Znanlye," 1958. 47 P. (Series: Vaesoyuznoye ob-
shchestvo po ra3prostranenlyu politicheskikh I nauchnykh znanly.
Serlya 111, 1958, no. 40) 66,000 copies printed
Sponsoring Agency: Vsesoyuznoye obshchestvo po resprostraneniyu
politichoskikh I nauchnykh zrianly.
Edo: Bogatyrenko, Z.S. and Falaleyeva, T.F.; Tech. Ed.: Atroshchenko,
L.Ye.
PURPOSE: This booklet is Intended ror the general reader Interested
In the production or chemicals and synthetic materials, and In the
role or chemistry In the national economy.
Card 1/4
Chemistry in the National Economy 30V/.'L4o6
COVERAGE: The rapid development of the chemical Industry and the
use of chemicals In various fields of the Soviet national economy
Is outlined. The Soviet Union now occupies second place, after
the USAIn the production of chemicals. In the rate Of Lte devel-
opment of chemical production, however, the Soviet Unio. -nloys
first place. All the prerequisites for a further rapid deve.opment
of the chemical industry exist in the USSR. The gradual Increase
In the production of chemicals and such raw materials as synthetic
rubber, fiber, wool, cotton, plastics, etc. is illustrated In a
number of tables. The economic advantage of producing and using
synthetic materials is Illustrated by a number of examples.
Investments and labor required to produce materials consisting of
polymers are by far lower than those required for the recovery of
a natural raw material. Millions of tons of various vegetables
are needed to produce the alcohol which is used as raw material
in the production of synthetic rubber, varnish, paints, drugs and
other synthetic products. Thanks to recently developed techno-
logical methods, it has become possible and profitable to use
synthetic material instead of food products as a raw material.
Card 2/4
Chemistry In the National Economy SOV/1406
Considerable efforts are therefore being made to widen the range
of synthetic material needed In various branches of the Industry.
The author emphasizes the growing utilization of synthetic pro-
ducts and the Increasing role of chemicals In agriculture and
forestry. Efforts should be made to minimize losses of such raw
materials as natural gas, paraffin max, wood pulp, etc. All raw
materials are needed and can easily be utilized In the Interests
of the Soviet national economy. No personalities are mentioned.
No references are given.
TABIZ OF COWMNTS:
Introduction
3
Economic Aspect of Producing Synthetic Materials 9
Economic Practicability of Using Synthetic Materials and
Products to Meet the Demands of the Population and the
National Economy 25
Card 3/4
MRASOV, N.V.; SHIIJST. V.A.
Soviet-Ohimese research in the Amur Basin. Isv.Stb.otd.AM SSSR
no.10:5-14 '59. (RIVA 13 - 4)
1. Sovet po izuehonly-u proizvoditel'nyirh sll rrl Prozidlumo AN
SSSR.
(Amur Valle7)
SURA50T, likolay Mikolayevich; KTISLIKAN, B.I., red.; LIPKIVA, T.G..
red.Isd-yel UIGMCHM. L.A.. tekhn.red.
[Economics of the chemical industryJ Ikonomike khImichaskoi
pronyuhlennosti. lad.2.. perer. I dap. Moskva. Goe.lzd-yo
*Vysehaia Shkola'" 1959. 478 P. (KLRA 1313)
1. Chlen-korrespondent AN =R (for Nekrosov).
,I : , -- I - 1,1 .. r i~m ti ,
--,VwMhSUV, - - -
Current development and location of the productive forces of
Siberia and tho Far last is the incarnation of Lenin's ideas.
lxv.Sib.otd.AN SSSH no.6:3-16 '60. (KIBA 13-9)
1. Sovet po itucheni" proIxvodita1'nYkb vil AN SSSR.
(Siberia, Ustern-Econoftic geography)
REKRA,SOVP N.K.
Scientific problew underlying the distribution af the pro-
ductive forces. Vest. AN SSSR 33 no.5:24-33 MY 163.
(MIRA 16t6)
1. Ghlen-korrespondent 0 SSSR.
(InduBtry)
! 1.,,ELAItZE, -trak Ay S(~ lumor, v ~, li; 1~.N. , (~ t -.r. md.
BW t.,.e "r. rl., ~ *. -1 , -%,
oconor.~,: of tto- S.S.,~. , ," El i ". )a-
I-azv 'tif7, i.b,. ~Jj~ "'U , ~. asi, .
, r., I :. a )
lyor,kv~t 1. N R U i. h ) I ". . . . i . f v I '. tA,
i . C 1,i #! n- k , r re 6 1 ii, : ~- r~ t At. .1; i6o. ( f - r- 1, ~ K r q c V) -
Ad
7T in
,.;,c a sbo:
$1 V
lot .0
Name.: NEKRA.90V, N. V.
Dissertation: The deVe1OPMenL Of teaching the USSR Constitution in the
Soviet school
Degree: CUDd Fed icl
AW41-1&LLan z Acad of' Pedagoeical Sci RBPSH, Sci Res Inst of TeachinC
Methods
Date, Placei 15~)5, Moscow
Source: Knizbnaya letopin', No 45, 1956
IDDLYSEMT, V.I.; E&KRASOV4.-N.T.; KARTMV, N.Y.. redaktor; GALAKTIONDVA,
U.S., iy re'&aktor.
[Laying asphalt concrete; ma=al for operators of asphalt laying
machine$] Ukladka aefaltobstoas. posobie motoristu aafalltouklad-
chika. Moskva, Izd--vo doroshao-takha.lit-ry Gushoodora KTD SSSR.
1952. 79 p. [Microfilm] (KI&~4 Q-1)
(Asphoult concrete)
MMIA SOV, N. V.
Significance of nonspecific mensibilization in cowplication in
blood transfusions. Alrt.yop.perml.kroyl no.4:141-142 '55.
(KIRA 13:1)
1. laboratoriya, okeperimentallnoy patologii Loningradskoge instituta
perelivanlya krowl (zav. laboratoriyey - chlon-korrespondent AMN SSSR,
prof. 1.R. Petrov)
(BLOOD--TRANSYUSION)
UNLRASOV, b.V.; RUS"OV, A.N.. otv.rod.; HUDAKOTA, N.I.. aUm.red.
(Standards and estimates for building and assembly work] Ad"
normy I rastsenici na stroltellnyv. montashnys I remontno-strol-
tellnys raboty 1960 g. Noskvs. Gos.isd-vo lit-ry po stroit.0
arichit. i stroit.siaterialax. No.l?. (Road construction] Doros"
raboty. 1960. 58 p. (MIRA l3t8)
1. Russia (1923- U.S.S.R.J Gosudaretyennyy kornitat po delam
stroitel'stva. 2. T3entralInsys normotivno-isaledovatel'skays
stantsiya Orgtranestroys Hinisterstva trensportnogo stroltelletva
(for Nekrasov).
(Road constniotion-Coste)
NEKRA,60V, N.Ya.
Using 2,4-D together vith ferti-lizers. Zemledelie 25 nc..1:56 .~ '63.
U-,aj, 16:1),
1. Khaxlkovskiy ael'Bkk,~l-;OZ-ja.,.itV3-'IIAJ-j .':IL~ I i ti. " .
(Kharkov Prov: , : r.r nanures)
Mh,,rknv ,ruvizee-Weed control)
I J:~ A~C-
1: 1 , t . , P W. 0 1. (~ m ~ 9 t ; ') - ", k : ,, .
'Collcm, C.,~ bi i '.L [ . ar.ts. , ek...moL. 31 f.c.1 1 :1- , -9 162.
16:1-)
1 . ~-pc -, n I kcrr~,,, ondent ZhUl-T "lA "'Iekhnika mo I otievdn ~ for
Doldalai.0y) .
(Industrial managemant)
'1' *1 '1 #A
el;
ol
621.31)3.4177-9
LIGL assw6mm 60RAMME dr ampnow
do In ax. mm wedaw MORG"m 0 A
W
*owe J.&Aawp%wm.. lk 4 10 (ftf, lem-
MA WMAAW amdm 4m vablaww"em
oft MrAm" bwwmm ad
IL
CA:.
woo
C ~ Go
f
"I... 6m"., L ISWK 41 MO
....... - ...4 A
In - M
00 00 -
ot 0 0 it 0 0 4 0 49 9
7
1
m
L 4 1. 1, a 0 IF 0 Id a a 0 gogss* qu
1 Seto
-00
00. I?u too wima"m sm"n I* am mom SO -00
.44
j&W fpopAw kg& Fdoags"n. 0 A IkA
Aworwas. L 67 9
~-kws ISO, tv Itmw toy Ubtwvti" thm io a orwistak
00 a kwad vatuch can tin mob orviswak"t to (60 Rwkm .00
04111 0 atw* Jim atfoostum . coinamic"d to Ike lift. the -00
1widniorpagatithewsordartiltm rmourt-ofstortrindkeltv
00 ..f.ening And tkomig cgagjagogswt j#w towifativin is onedc .00
Ifoor-alomr-'Ithir
0* '.61 emetnal forustaftor t, the onf&t,.
ooj .-I the lerwh (of the tv%k *hkh aumij Ighe I no.
.'"mouff 'UFTrnf cqw"k-f on Ow Aged %SILO tan 400
00 tv 'sJLulajej Pa arinaltm mfvr,.t %gotior. ho. loot
A nm% "v,olng and A n,&% Stntidimll idftw The
"Nd - "ord -0 - .lot and
A
00 4F t
aw I'vqw,to) M ommi"i ."k -4,
-.11 amsin.,utal transworm ard1v J&nWJ millming
vlc.s Ag4wArrd nonns it, the pt~i-af -onst-ut"l-tv
.1 arle-,stimIp the -f t1tor ~N,Icm -,rFk
11 .- (,~" Iftifit-It* I,, AltAin A 104111
t
I
(
-4-
* --f-
i
~.( the I two 'am's "
j '?w "Ni'mulaiton tvftanw .", had No -f " felt that
111,M411% 1111% t%II-Armc tmid for
t'u'ned 4 It '00
Ow Ow
to it :0 **
10 A, I a %1 A a a A to a 1 4 too
IN 0
74,
0 0 0 0 0 0 0 0 0 0 0 0
- IS 0 0
0 0 a a 0 0 0 6 0 0 0 0 4 0 0 0 0 0 0 0 0 0
* 0 : : *0
an A
A','T H OR S Sekrasov, 0"Leg A.ekBojevi.-t, ~" V 161 - 'l - - - - , 11'
-Ce-1-546'nlor Scientific Worker at tr-mb
T:Atn~;p-jrt at the Uor,,~ow ! atili;te ' r we:
Zn~Tineer Rak-is, ",rigoriy Asqirzt-,~~t 7it tr.- -~: -r
of E"~,-' -~~il %t tne Y. -.F-,--w Te-!-~n-
i :,-, e r. i Ba in
T I L E Vn I zf.'-irt in6-',': A' s P r I T.
r, 9 S K,-. a ~-, i r. f. h r r k ~) r~ ~ e - a t r n,-).~- e , e K t r
IV I a *.'~ ~
-,A L N I jy 0 JOK.%ly VY-3shey snko-ly, E'.ewtromefcl.a,,.lKa i qvto7natlKa,
1 .4 Nr I , ;~. - 1"
A S A -T A me -) i i s I r ves t I ozat e I f ~ r the increase of t ne at Rr t
t-,r I,ie of 'i - -,7-, 1 er.9 Pr mot ) r by snunt 1. ng t n. ril ar t '. ng- q - RT ac ~ ty
by a n e f : e r t i ve re 9 1, 9t ~n ce , wh , c h i a I i sconne - t ed af er at art ir..~-
~' , n ~ arces
. - - at a--tir-g-u~ c- r,.-ui t I a f ree of com~l i cated a~~*
and in a numher of cases permi ts to reduce the start ng-a~
caiac i ty . Two c ! r- : q li agrams of a two- phase mot r are gi ve,
One nhown thp .n(j.-er,t of connecting, if a giver, rapncity is
connected witri t?~e condencer phase. The second shows the effect
Carl 1, 4 of 9~,untlng tne cupAcity by an effective reniata!~-e. A 7ompari-
a Start i r - I t o .-t
161
Mot r
w i gra m.9 w g , t ~. a t t e 9 hu r.
I ty ty in f.,: t i v e res:,qtv-.-e lpalq :3. 17 -
P r-it,,on of t!.e t r ar. I :ir. ir-re.isp of t n t:
t r , -ie T'. e o -7, , a * i r, r~ s s t ~,n t
t.,. e !,, *. I i -.w, * . r p cy . 1 r. , g t ~,e t t i
at -t s t t i i i y r~', t e x 7ee , rp, a c r a r~ f
t e f t I q I ve 7
r
it T r. er t np s t i:- t i n;~
Zer t A
rt 2e ty I '"a
t t ?~e 'r ?Fit.-. -!j
I t
r~ a ',I
ri r r.- r t ~ :q- -;t , i c 1 t y t r
1 n r e'l t t i rt 4 rj~ t -) r e of
ard 2, 4 r,--uit ir.- ~rj,or-it i -t r