SCIENTIFIC ABSTRACT NAZAROV, G. V. - NAZAROV, I. M.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001136230009-6
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
January 3, 2017
Document Release Date:
July 31, 2000
Sequence Number:
9
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 3.08 MB |
Body:
Welding of Titanium and Ito Alloys SOV/2857
Ch. 11. Weldability of Commercial Titanium 28
Welding characteristics of titanium 28
Effect of harmful impurities on the weldability of titanium 29
Thermal processes In the welding of titanium 36
Control of structure and mechanical properties of welded
titanium Joints during weld-Ing 47
Ch. Ill. Weldability of Titanium Alloys 62
Effect of alloying elements on the weldability of titanium 62
Alpha alloys of titanium 64
Alpha + beta alloys of titanium 67
Beta alloys of titanium 84
Ch. IV. Inert-gas Shielded Arc Welding 86
Methods and effectiveness of shielding 86
Methods and regimes of welding 93
Selection of accessories and equipment 99
Ch. V. Automatic Submerged-are Welding 106
Welding of Titanium and Its Alloys SOV/2857
Special features of welding titanium and requirements imposed
on fluxes 106
Regimes and mothodn of are welding )0B
Electroolng welding of titanium of large thicknenn 112
Ch. VI. Resistance Welding 1116
Spot and seam welding 116
Butt welding 121
Ch. VII. Soldering Titanium 123
Ch.VIII. Welded Structures 127
Bibliography 133
AVAILABLE: Library of Congress
GO/ec
Card 4/4 11-25-59
I/V,4
1.6
96
U-3.41
O~MJ51
AA
5~113 out
12F.
WEI
SAI k
t
JAI
.1 gi Hill
09 o"
Isi I I
-lip
pill - S.
93
R
I
. a
All
8~ 0
Y.
SHORSHOROT. KAN. -; UZAROT, G.7, -
-
Welding and goldering of titanium and Its alloys. Itegi naukii
n9.2:252-284 '59. (KITA 12:9) '
(Titaniumt-Welding)
v
25(l) SOO 3W-59 5- 1 c5/21
AUTHOR: Nazarov, G. V., Engineer
TITLE: Experience in the Prevention of k^racks in Angular Seams Made
on Low-Alloy Steel
PERIODICALs Svarochn*oye proizvodetvo, 1959, Nr 5, PP 36-37 (USSR)
ABSTRACT: Tests carried out at the "Krasnoye Sormovo" plant to find
out why longitudinal cracks appeared in the first layer in
an automatically-welded annular angular seam showed that
these cracks vere crystallization ("hot") cracks. This pre-
sumption was based on: 1) the presence of solidified flux
in the crack; 2) accumulations of sulfur near the zone of
the crack revealed by Bauman impressions; 3) the disposi-
tion of the main axes of the dendrite3 almost perperidicu-
larly to the plane of the crack (Figure 2), especially near
the surface of the metal of the first layer of the aeam.
Thereforet to alter the coefficient of the shape of the seam
to improve the crystallization conditions, 2 mm welding wire
was used, and the welding carried out witti 380-400 amps, an
Card 1/2 arc voltage of 32-36 volts and a speed of 21 meters per hour.
""OV/135-59, 5-15/21
Experience in the Prevention of Cracks in Angular Seams Made on 1-,w-Alloy
Steel
This stopped the cracks. The following COnClU3ions were
drawn from these results; 1) Cracks do not occur in T
shaped seams in low-alloy steel when the carbon content 2.9
reduced to 0.8 - 0.10,14; 2) Cracks do not occur when 2 mm
welding wire is used to weld the first layer; 3) the new
method of welding requires two first layers tc~ b.p made -.q:,h
2 mm wire, the usual 5 mm wire being used for the remaining
layers. There are 2 photos and 1 diagram.
ASSOCIATION: Zavod "Krasnoye Sormovo" (Krasnoye Sormovo" Plant)
Card 2/2
25(195) SOV/125-12-4-7/18
LUTHORS: Makara, A.M., Candidate of Technical Sciences, -Novi-
kov, I.V. _11azarov., G.V,, Ryabinkin, V.I.,
TITL.I-',: Working out the Technology of "Electric tjag '..'elding"
of Shells, Made of Medium Alloyed Steel Type AK
PERIODICAL: Avtomaticheakaya "varka, 1959, Vol 12, Nr 4, pp 55-65
(USSR)
ABSTIUXT: The article prepentp the reault" of inveoti6ationp,
made in the Inptitute for Electric ''elding and the
"Kramnoye Sormovoll Plant. To weld the -teel AK com-
plex alloyed wirei, type EI 581 and EI 616 are used.
The content of dangerou" elemente ap carbon, -ulphur,
phosphoru- in the vield im small, becaupe there are
very -mall amount- of them in the bamic metal and in
the metal of the electrode-wire. To weld AK--teel with
a thicknemp of 50 mili following conditions were chosen:
electrode feed rate: 180-200 m/h; arc-voltage: 54-
55 V; Yielding-current; 400-440 A; depth of the vlag-
Card 112 tub: 45-50 =; dry-boom: 60-60 mm; diameter of
SOV/125-12-4-7/18
7orkin- out the Technology of "Electric Slag 'elding" of She- 0,
C3 k I
Made of Medium Alloyed Steel Type AK
electrode-wire: 3ma; welding-clearance 25-28 mra;
opeed of welding: 0.7-0.5 m/h. Alternation current.
The chemical con-irtence of the electrode wire is
fthown in -chedule 1. Inve-tigation of the macro-
and micro-ptructure of the weld ohowed a coarme cry-
etalline otructure, which dipappeared after heat-
treatment. For electric-olag-welding the apparatup
type A-372--, (Figure 10) iq used. There are 7 photo-
grapho, 2 giaphp, 4 diagrama and 6 Soviet referencep.
U
ASSOCIATION: Ordena trudovogo krapnogo znameni inatitut elektro-
i-varki in. ...0. Patona AN USSR (Inptitute of the
Order of the Red Banner of Labor for Electric "I'elding
imeni ~~',:.O. Pator All UkrSSR) Gorlkovf-kiy zavod "Krap-
rioye Sormovoll (G,,rlciy Plant "Kraonoye Sormovo")
SUBMITTED: February 13, 1958
Card 2/2
M7AROV# 00 V,p Cand Tech Sci - (diss) wInvestigatiOn Of the weldability
of titwdm and so= of ita &UOP** 9060OW's IMi, 28 Pp, 260 cop. Ia3ti-
tutg of Metallurgy in A. A. liykovt AS USU) (KL,, 45-W# 126)
- 0
SHORMOROV, 9.*., ITAUROT, G.T.
Welftbillty of M titunlum &M the TYStitanims &Ijoy. Titan
ago splavy no.3tl35-140 060. (NM 13:7)
(Titanina-Welding) (Titanium alloys-Wslding)
82653
S/135/60/000/CO8/007/010
A0061AO02
flazarm, O.,V jigineer
AUTHORs F
TITIE: Electrg lax Weldin f 100 mm Thick Med.um- lloy Steel Fcrgings
PERIODICALi Svarochnoye proizvodetvo, 1960, No. 8, pp. 214-26
TEXTs Medium-alloy 100 mm thick steel forginga were welded with a seam
length of 500 mm. When assembling, a 30 mm gap between the parts was fixed by 4-5
strips of 30 x 30 x 5 mm. The strips prevented a contact of the edges during the
welding process and ensured the rigid fastening of thf.- parts to be welded. The
are was excited by the first strip. Welding was carried out on a "A-3',12p" (A-372r)
machine fed from a 7UJC-1000/3P (TShS-1000/3) transformer. The seam was cooled
from the reverae side by a copper backing plate and from the machine s'.de by a
copper slider. The welding conditions used (given in Table 1) ensured a high
amount of the base metal In the weld, permitting the use of low-alloy welding
materials ("'0l" low-alloy wire and "A4-8" (AN-8) flux). The mechanical prop-
erties of the weld Joints after appropriate heat treatment (quench harden!ng and
high tempering) ensured a strength of the weld equal to that of the bane metal.
Fracture tests were made to determine the resintivity of the weld join-,s to brittle
failure, characterized by the content of the fibrous component in the fracture.
Card 1/2
S/135/60/000/008/007/10 10
A006/AO02
Electroslag Welding of 100 mm Thick Medium-Alloy Steel Forgings
The amount of this component (V) wan found by the following correlationt
V a Ffibr. 100%
Ptot.
where Ffibr. is the area with a fibrous fracture in mn2; and Ftot is the total
surface of the fracture in mm2. [Abstracter's note: Subscripts f1br. (fibrous)
and tot (total) are translations of the original 60,4 (volot:nistyy) and r)r;jj(obshchaYa,).
Figure 3 shows the graphic characteristics of a serien of weld joint fractures
plotted by the aforementioned method. Data obtained show the high stability of
the fibrous component, permitting a satisfactory evaluation of the weld metal
with respect to its rentstivity to brittle failure. The d,3scribed technology is
recor nded for e1eqtroslag welding of high strength medium-alloy steel forgings
in the manufacture of important structures. There are 2 tables and 4 figures.
ASSOCIATION: Zavod "Krasnoye Sormovo" imeni A.A. Zhdanova ("Krasnoye Sormovo"
Plant imeni A,A, Zhdanov)
Card 2/2
A U 'I"I i 0, R Nazar*.Vp Go Vo
T IT T 2 -ltnd Shapt, Sp,)--,
R LA rm. r, I cg t ~.f, Tend -r.- y - f W4 I I r.,R "'JIL
M,,4 ta ! B,:,i t t fft~ turi Ac.,9rd ! rig * c, h,~ S ru ,u- -u, fr&4
t -~ T~P
PER IODICAL Z%vcdakaya I alocr titcr lys , 1960, Vol . 26, Nc . 6.
TEXT I c! 41.jr.11.,opo a exqr-,ed by the ihar. .? and d I m~,r, - i P?~,4 C
t file tc n t4 SILI 18 r-f -49 Id 1 ng StS,10 S Ct Me t hl 5 9.1 r ~3p 17 1
r.~ ~0' wa3 investigated$ and a method -f determining ~h,? d~?grf-.,? c all t 1
ty vcrkod c--xt. The fracizure wa6 c4usia by stati- -c~,nd.rg f - .
_ C, d r:7
for tais purpc,ji a urti-er a!
f A K (AK ) s ; a e I
t~~p4 wa.4 uied with -.A -A." f 3 ad a p p 1 2 C,
1! ;,C) C. ?be in tha wolding
me,it 'rns~6 una.--,r Engia4er 1. To. Kurev L c. c, k p -1 - 1A
-,.rJ
f; T ha ~ i r ~t b 1 '1 p I d .1 f p
th:t Din-i 3,-.- -.-A. -;f rj
r~ W a i fA 3 ) am o ~ -A X4 -11 B r I I,? F t
5, ru F!! itc, k a, 9
i Q,;re nds ov :.har
Tn ! -.3 q I
0:1 thm r-.pnu]'..,; of tn~l )irelkillg e
lo f i bro a c ~4 al~ n iv; i A.1 f
svi
f a ik c b 3t 31.3 v
T h/b ) bf~ t a', an ho tgol ; .1?11 1w h C. f t t.'4 f ra
2 T tv? f I h r,- o u i f r a , lv G r 9 c o.; a p c n 4 n tIs dAf ifo3d A-,
fr&~"t".'Zo S-Arfa .0 and czyst'll
r;.3 F, 1"i,
50% f i orouc. a -r, r.4 , t,.~ - a~. sr ;jr,3 i t b ro ax.1 ng ~a 3 3
t% b - 55-60 as miy 'hn r--4gird 4d aA It
In olo~,trt'! AaoF xiia.n4:
t h 30 )8 1 (3156 1 ) Croo This dlitemstom and ohape o f ;p :-,;m
oo -r4ga:iod as the nost r1garvas testing cop-ditiocs fcr a gl--af~ tb:
79141vg w3atoi. There %rq A fig-irin, 2 t%blos, aAj 6 Scvigz
ASSO",:ATION: Zq-'q4 "Kr4-'noyq 1M. A. A. zild3k-l.:vx
A. f.. ?jrjd~tT',:-
(Plfvit "Kr-%wiopk 5,
MZAROVP GeV* , inabo
Industrial &M technical conference on weldIng In Garkiy.
Svar. proizv. no.6:44,-45 Je 161. (KIM 24:6)
(Welding--Congresses)
- -- - - ---- - - Tq L, .: I :._-: ''--I ~,' -a~. 1,
. . , . - r -1 1- 7. ~... .-,-
226"
G/014/61/000/008/002/002
1.1300 1613 D029/D109
AUTHORS: Shorshorov, M. KH., and Nazarov, G. V. (Moscow)
TITLE: The kinetics of phase transitioas and the formation of cold
cracks in welding of titanium and its alloys
PERIODICAL: Schweisstechnik, no 8, 1961, 356
TEXT: The article is an extract of a thesis put to discussion on the 2nd
International Colloquy "Schwdiasmetallkunde und Metallurgie der Hichteisen-
metalle" (welding and metallurgy of non-ferrous metals), of the ZIS, Weimar
1961. The original and a translation in German are available at the ZIS.
Tests were carried out with tubes of 6 mm, length and 6 9 diameter with a
wall thickness of 1 mm. Test bodies were heated to 1200 C or 13000C Trith
high-frequenoy ourrenS. The heating velocity in the o< _> /3 transition
range amounted to 300 C/o. The cooling velocity was varied between 4 and
450 C/o. The following results were obtained: 1) During welding of tita-
nium and its alloys the temperature range 0of the 13 transition shifts
to the temperature region from 800 to 500 C with an ircrease of the cooling
velocity up to 400-450OC/s. 2) The cooling velocity has a complicatE-d
Card 1/2
22699
G/01 61/000/008/002/002
The kinetics of phase transitions D029YD109
influence on the initial temperature of the h 'rdride conversion and on the
character of the hydride formation. 3) On cooling and subsequent storage
at 200C the hydride conversion takea place with an increase of volume which
is the largerv the higher the hydrogen contents of the working material is.
4) The hydrogen content of the material has the highest influence on the
formation of cold cracks. 5) A maximum limit of 0.14 - 0.17% of oxygen and
nitrogen can be maintained under modern production conditions. In orler to
avoid cold cracks in welding constructions subjected to internal tensions, it
is rtecessary to limit the hydrogen content of the basic and filler metal to
0.006% by using a suitable welding method.
Card 2/2
113Z51F' ('k1000ZO07ZO311040
D217RD307
A-,)ThU1W: Shorshorov, M. Kh. and Nazarov, G. V.
TITLE: Kinetics of phase transformations and formation of cold
cracks on welding titanium and its alloys
"i-OURCE: Akademiya nauk Z;~33R. Institut metallurgii. Titan i yego
splavy. no. 7, Moscow, 1962. I-letallokhizjiya i novyye
splavy, 226-233
1P-'.'XT; The following materiala were used for the study of the ki-
~A
netics of transformation: Commercialiy pure titanium ''-t,/(VT1)
(0.0075% H2 ) and ory (OT4) alloys of two melts with dif f erent
n drogen contents (3-' Al, l-&,4 I-In, 0.0055 and 0.018% H
Y '7 2 AT3
(31,f, Al, 1.1% Cr + Fe + Si and O.Oic!j F2), AT4 (4% Al, 1 -04 Cr + Fe
+ Si and 0.0055% H2) and AT8 (7.1% Al, 0.8% Cr + Fe + Si and
H2). The o,:Igen and nitrogen content of all alloys did not exceed
-0.1 - 0.12% and 0.04 - 0.05% respectively. For the investigation
Card 1/ 3
3/59 62/000/007/031/040
Kinetics of phase D217%307
of cold crack formation one of the severect welding toots was car-
ried out, namely, the crooo tpot. Alloya OT4 (0-0055,4 IL.,), AT5
(0.01,!. H2) and AT8 (0-05~', H2) were tested. The oxygen and nitrogen
contents were within the technically permissible limits (N /0.04
2
0.05; 0 " 0.1 - U.12~). It was found that on welding commercially
2 4~k
pure Ti and its alloys with subsequent increase in coolinG rate to
400 - 4500/sec, a considerable displacement of the temperature in-
terval of the 3 --.' transformation occurs in the temperature range
8JO - 5000C. 'The cooliri~, rate exerts a complex influence on the
temperature at which hydride transformation is initiatcd and on
the nature of hydride precipitation. The hydride transformation
takes place during cooling and subsequent resting at room tempe-
rature, with an increase in volume which is the greater, the high-
er t-ne hydroven content of the alloy. The hydrogen content exerts
the most imoortant influence on the tendency of Ti and its alloys
to form cola cracks. At a total oxygen + nitrogen content of
-0.14 - U-17,c~ which can usually be attained under conditions of
Gard 2/3
3/598/62/600/007/031/040
Kinetics of phase ... D217/D307
contemporary Ti production, the total hydrogen content of the ba-
sis metal and alloy metals should be limited to 0.008~,in order
to ensure good quality welds free from cold cracks in rigid wel-
ded joints. There are 7 figures.
Card 3/3
May&
3V,705
S'/598/62/000/007/1032/040
D217/D~07
AUTHORS; Nazarov, G. V. and Shorshorov, M. Kh.
, characteristics of the titanium alloys
T IT L E Weiding
(AT3), AT4, AT6 and AT8
60'j-RGE: Akademiya nauk institut metallurgii. Titan i yego
splavy. no. 7, 11,loscow, 1962. Metallokhimiya i novyye
splavy, 234-239
T~XT: The weldability of Ti alloys was studied in order to deter-
mine accurately the limits of alloying within which satisfactory
welds can be obtained, The study was carried out at the Theory of
~ieiding Process Laboratory of the Instilut metallurgii imeni A. A
Baykova AN SSSR (Institute of 'Ietallurgy imeni A. A. j3aykov, A6
USSR) in 1958-1959. The investigations included mechanical testing
and metallographic analysis of the welded joints as well as of the
basis metal in the heat-affected zone. A detailed study of the re-
action of the basis metal to the thermal cycle during welding was
carried out. The alloys were produced by twofold vacuum remelting.
Card 1/ 2
S/59 62/000/007/032/040
'~'.'elding characteristics of ... D217YD307
The total oxygen and nitrogen content of the alloys did not exceed
0.10' - 0.185. Sheets of 3 mm thickness were used immediately after
rolling and etching. It was found that with contents of 3-stabiliz-
ing elements between 0.6 and 0.8%, the properties of Ti alloys of
the system Ti-Al-Cr-Fe-Si-3 in the heat-affected zone *are changed
to an insignificantly small extent, for a very wide range of para-
meters of the thermal cycle of welding (the cooling rates and soak-
ing times of the metal being above the 3 transforffaition tem- V11/
perature). The properties of the welded joints in these alloys de-
crease somewhat as compared with the basis metal if the aluminum
content of the alloy does not exceed 4.5c/'j. in the presence of 1.3 -
1.6c,,, of 2-stabilizing elements, the alloys tend to harden and over-
heat under welding conditions. At a B-stabilizing content of 2.3
2.8%, the alloys become very prone to hardening in the zone adja-
cent to the joint. The properties of alloys containing 3.5 - 4.5i,-
Al and 0.6 - 1.3% 2-stabilizing elements decreases to only a very
slight extent after welding. Alloys of this system exhibit a sa-
tisfactory weldability if the U.T.�. of the basis metal after roll-
in:- does not exceed 95 - 105 k6/i.=2. There are 4 figures.
Card 2/2
ACCESSION NR: AT4007051 S/2598/63/000/010/0278/0283
AUTHOR: Shorshorov, M. Kh.; Razarov, G. V.
TITLE: Phase transformations In the weld-adjacent zone of alpha and alpha plus
beta titanium of loys and criteria for selecting welding conditions
SOURCE: AN SSSR. Institut metallurgli. Titan I yego splavy*, no. 10. 1963.
Issledovanlya titanovy*kh splavov, 278-283
ABSTRAM. In continuation of earlier work on other TI alloys ("Titan I yego
splavy-MI, vy*p. VI I, Izd-vo AN SSSR, 1962, p. 226), the authors studied the
kinetics of the phase transformations in the weld-adjacent zone of TI alloys VT-5-
1, VT-14, VT-14-1 and 48-0T3 by a dilatometric method. Analysis of the anisother-;
Mic transformations during continuous cooling under the conditions of the welding
cycle showed that the temperature of onset of the 13 --:>a' transformation de-
creases along an S-shaped curve with increasing cooling rate (4-5-260 degrees/
see.), and that the transformation Is practically complete In a relatively narrow
j interval (50-100C below the temperature of onset for alloys VT-5-1 and 48-0T3, and
30-BOC below for VT-14-1). The temperature of onset of this phase transformation
also decreased with an Increase In the content of nitrogen and oxygen In the alloy.
I In alloy VT-5-1, the temperature of onset of the hydride transformation (which d;d
A'hot a lar In alloy VT-14-1) passed through a maximum with Increasing cooling rate.
1 Card 15
iACCESSION NR: AT4007051
The effect of alloy composition (presence of Mo, V, etc.) and the parameters of the
welding cycle on the structure and mechanical properties of the weld-adjacent zone
were also Investigated; an example of these results Is shown In Fig. I of the En-
closure. On the basis of these results, the authors conclude that the ct-alloys
and a + 0 alloys of the martensitic class with a low content of alloying elements
show high plasticity in the weld-3djacent zone over a wide range of optimal cool-
Ing rates ()0-150 degrees/sec.) and duration of temperatures above thij transforma-,
tion point (8-40 seconds). As the content of gases and 13-stabilizing elements in
~_these alloys increases, the optimal range of the parameters contracts and the
Iplasticity in the weld-adjacent zone decreases markedly both at high cooling rates
I-(due to hardening) and at low cooling rates (due to superheating and sensitivity
1to grain growth). Thus, In alloy VT-14, the plasticity of the weld-adjacent zone
Increases with decreasing cooling rate, but always remains below that of the orl-
ginal metal, while In VT-14-i (7.5% Mo) the plasticity Is higher than that of the
original metal at an optimal cooling rate. In the aging a + 13 alloys with an In-
termedlete content of alloying elements, maximal plasticity Is obtained at v4r[ous
cooling.rates, depending an the type and content of 0-stablilzing elemnts# OrIge
art, has: 5 figures.
ASSOCIATIO$(; Institut matallurgil AN SSSR (Metallurgical institute, AN SSSR)
Card 2/4
ACCESSION NR: AT4007051
SUBMITTED: 00
SUB CODES.
No REF SOY: 003
EXCL: 01
OTHERt 000
rd 3/4.
~ACCI
ACCESSION-SRs AT4007051
OIL &L gL g( J A 6 1 It 40 Mx4W AV 49 1xW1x*41"C
1 (471 OW (110 01 (1 . 9 2 Ce*
Effect of cooling rate (W) at the onset of the 0-*cxl transformation and of duration
of temperatures above this point (t' - t") on the mechanical properties of the %eld-
adjacent zone In alloy VT-14 with 3.6% Ma and V. Units of the ordinates are: kg/MM2,
% elongation, kg/mm2 and degrees, respectively; right-hand ordim te a original
state; abscissa a W In degrees/sec. and t' - t" In seconds.
card 4/4
4
68
do
Mv
K,
if
Mr
6
ZKCLOSVKE# 01
WAR07,, G.Tv lnzb.
191actric ig2ag voldIM of shIp elements@ Svare proizvo wee;
22-25 Ag. 163. (KMA 17-. 1)
. 1.
Nh.ZAiCVp GeV,# in7he
Kinatica of the growth of an auistenite grain during the thamil
arle In electroslag welding. Svar. proizvo 12:10-12 D 163.
(MIRA 18:9)
Is Zavod "Krannoyc Sormovo".
_1 o?433.!67
'7ZC_W_1_JT6Q3Q267 SOURCE CODE: UR/0l25/66/ooo/Go3/coio/ooi3
AWHOR: Nazarov, G. V.
'ORG: Corky Polytechnical Inatitute Ira. A. A. Zhdanov (Garlkovakly politekhnichookiy
jin3titut)
'TITLE: Factors involved in calculating the thermal cycle for electroslag welding
~SOURCE: Avtomaticheskaya svarka, no. 8, 1966, 10-13
~TOPIC TAGS: electroslag welding, heat i;ource, heat sink, mathematic model
',ABSTRACT: The author considers the characteristics of the heating and coolir4; of
-etal during electroslag welding with barrel-nhaped penetration. A method is proposed
,or calculating the temperature field of the limiting state under conditions of non-
.equilibrium penetration and theoretical data are given on thermal cycles for specific
~welding conditions. In spite of the complexity of the processes which take place in
ithe slag bath and the consequent volumetric nonhomogeniety, an equivalent model may be
isubstituted for the actual slag bath with a few concentrated heat sources and heat
Isinks (number and distribution dependent oti the technology used for clectroslag weld-
ing of a specific part). This model may be used for plotting the thermal cycles of
i a om theoretical tem-
!electroslag welding under specific conditions with a devi tion fr
;peratures of no more than 5%. Orig. art. has: 2 figures, 13 formulas.
SUB CODE: 13/ SUBM DATE: 28Jun65/ ORIG REF: 003
UDC: 621-791-756;536,12.001.24 F
Card 1/1
P"!
6. V.
Trei-r- Trq~,Anj,,
Easic principles in orj!anizinL tappim, and colicction of ol,~orosln to a wrrlk
chart. Der. i ic-solhim. prom. 1.0. 4, YZ53.
- s
Morithly Upt of-Ruggian Acn~.,s ic:is, ldlrary rf C~:nfrcss
June 1953. i'TCL.
2,46 V, 6r, V.
RALMY, O.Y.
Analysis of river runoff factors la relation to the Influance of
aconooda activity in the southern trans-rolga rogion. Izv. AN
SSM Ser. geog. no.6:74-82 N-D 157. (HIM 11:1)
Inatitut geografli AN SSSB.
(101g86 TaIIGy-RLMOff
NAZAROV, G. V.: Mjaster Caogr Sci (diss) -- "Conditions in the
Lomation of
runoff in the southern trans-Vol6a region". Leningrad, 1958. 21 pp (InSL Of
Geogr of the Acad Sci USSR), 110 copies (KL, No 8, 1959, 135)
RAZUIIIXHIII. N.V.; RAZAROV, G.v.
1. . Iiw'5,_,.
t e sevitbern trans-Volga region. Trudy lob.
IrOBIOU WiMeffiewtv,
oxeroved. 7:82-66 '58. (KII?A 11: 10)
1,Leningradekly goxvAarstv9nnjy univercitat i Iriptitut geografii
AN MR.
(VolVA Valler~-Zroslon)
IRLUROT, G-T.
rapping of larebe Sbor*trud. TSNILCHI no.13tl72-178 159e
(KIRA 13%10)
Ome tapping)
t
0
1
10'.,
NAZAROT, G.T.
Tscbmloa of the tapping of Siberian c4dime Sbor.trud. TWILVE
no.13:183-190 0590 Wu U: 10)
(Tree tapping)
RZAROT9 CF*T*
Change-over of wood-chenical establighmeate to the 7-hour
workday. Gidrollg.1 IssokbLa.pron. 13 no.4:24-25 060.
(NIRA IW)
1. Mentrallrry nauchno-Iseledovatel'skly lesokhimichevkl~v
institut.
(Tree tapping) (Hours of labor)
NAZA,mv, G.V.
Cultivatioa pmctices and their effect upon the water supply of
pon4s to trans-folga Oarataw Province. Is v. Vises. geog, ob-va
92 no.4:357-360 A-Ag 160. (MIRA 13:8)
(Saratov Province-Ponds)
NAZAROV, G. V., Cand Agr Scl -- "Tapping the Siberian larch
by means of exterior cuttings." Mos, 1961. (Min o~- ill-her
I g
*el
and See Spec Ed RSFSR. ',,'.oa Forest~Eng inst) (KL, 8-61, 254)
- 378 -
'-- I I GeV. ,
lwlusion of lareb in t=pentinlng. Gidroliz. i lesokhim.prom. 14
no.4tll-13 161. - (KEA 14: 5)
1. TSentrallnyy nauchno-inaodovatellski;r lesokhimichaskoy
institut.
kLar-ch) (Turpentining)
-- KAZAROVv G.V.
Method for evaluating alumges !n river runoff under the Influence
of agriculutre. Tzv. Ali 9SSR. Ser,,geog. noolt96-105 Ja4F 063.
(HIU 16t2)
1. laboratoriya ozerovedeniya AN SM
Vkmoff)
NAZARGY. G. V!,
Turbidity of water from the slopes and soil washout in the
trans-Volga portion of Saratov Province. Izv. All SSSR.
Sar. geog. no.203-78 Hr-Ap 162. (MIRA 150)
1. Institut geografii AN S WR ~
(Saratov Province.-Runoff)
NAZAROVO G.V.
1~
Speed up the induatrial utilization of larch t"ntining. Mdrolix
I lssokhijiprom. 16 no.3sl4 063. (HIRA 16s 5)
1. TSentrallnyy naudtmo-issladovatellskiy i proyektnyy institut
lasokhbdcheskoy promyshlonnosti.
(TurpentLning) (Larch)
GION, jldl,i NAZAR01j_ Gij.
CharRc teris tics of soll r r7~e%Ablilty ,n water In *h-! fcre5t atc:~e zc-"
~e
of the Europfan U.S.S.R. . Izv. Voen. geog. ob-va 5-7 no.2:184-1-'? Fx-Ap
165. (MIRA 18-.5)
GRIN9 A.M.; NAZAFW, G.V.
Compamtiva characttirJo tire of the percolatIve capacity of soils
in the foreat-steppo zone cf the Kuropean part of the U.S.S.R.
Pochvovedenle no.3:47-52 Mr 165. (MITIA 19-6)
1. Institut geografil All SSSR i Jaboratoriya ozerovedeniya Lenin-
gradskogo gosudarstvennogo universiteta.
Co.V.; 1.14~;FNYSil fe P.
NAU ROV,
14
Sprlrg runoff from ra 1) rp, _,Ural f!.Olda& I?,,,% VLrem,
10
geog. cb--va 97 no.3 2
(MIRA 18!8)
BAIS, S.V., kand. p(,ograf.nauk; GRIN, A.M., kand. geograf. naukl V.,
p _14:4~ .9-1
keni. geograt. nauk
Once more on the calculations of changes ia streamflow under the In-
fluente of agriculture. Meteor. t g1drol. nc,.6s47-50 Ag 165.
(FaRA 18:7)
1. Institut geografil AN SSSR i Laboratoriya ozerovedeniya Leningradakogo
gosduarstvennogo universiteta.
V.
-eamflow char..-~as in. the Zricraine under Us, effect of agrici.i.1-
-e. Int. All SSSR. Ser. geoE. z~o. It82-88 Ja-F 166
(!.!I A 19Q)
talmratoriya ozerovodeTAya Wi SSSR,
MAZAROV, Q.T.
-
Rehabilitation of wom-out tools.
1. XarabaltInakly eakILarn" zavod,
Sakh.prom. 28 no.2:35-36 154.
OWA 7:4)
(Sugar machinery)
NAZAROV, I.j BONDARI, F.
Whter-pt=ping stations. Inforz.biul, VUlMl no,4:20 lip 165,
(MIRA l8s5)
1. GJ&YM inzh. instituta Soyuzvodokenalproyekt (for Nazarov).
2e Rachallnik gidrotekhnichookogo otdola No.7 Soyuzvodokanalproyekta
(for Bondarl).
, RAZAROV,,. 4. U., ~ - .
-
chall ad ye&rs of steam-navlgation on the Tenisey River, Rach.
tra6b. 22 no.110-7 N 63. (KLRA 16s 12)
1. Machallnik Tonisoyakogo parckhodstya.
.--NAIZ-A,ROV, I.A., inzh.
Standard leslgr,3 of lised in outl~oor witer sup5>ly.
VrA. i 3hn. tekh. no.5:1-S 164. (,n R-A 17:9)
NAZAROVP I.A.
Role of faulting 'An
southwast,3rn part of
9 no*2:54-56 F 165.
Lhe fomation of oil. arul gab poole in tYA
Ue Apsheiron, Penlln~m,la. Geol.rieft, i gaza
OMIRA 18:4)
-1. Neftepromyslovoye upravienlye Karadagnoft'.
VAZAROV, I.A.
Inportanco of fluid nied In well perforation. Azerb.neft.khoz.
35 no.5-29-io Ky 156. (KLRA 9:10)
(Oil well drilling fluid) (Petrolmm engineering)
93-5-26/19
AUTHOR: Nazarov, I. A.
TITLE-. Determination of Bottom Role Pressure In Deflected
Wells (ORredelen-tye davieniya na zaboyakh naklonnykh
skvazhin)
PERIODICAL: Neftyanoye Khozyaystvo, 1957, Mr 5, p. 62 (USSR)
ABSTRACT: Bottom hole pressure in deflected wells can be accurately
measured by a downhole manometer. Sometimes this
pressure Is determined according to the length of the
column of fluid in the well. This method is an approxi-
mate method, but due to its simplicity it is used In
solving a number of practical problems. The level of
the liquid in a well can be easily determined with the
aid of a special sludge pump or an echometer. But In
the case of a deflected well the difference in depth
%etween the location of the filter and the level of the
liquid is only the length of the inclined column.
According to Pascal's law the pressure difference between
two points in the fluid depends only on the liquid density
Card 1/2 and difference (vertical) of level. This law was
93-5-16/19
Determination of Bottom Hole Pressure in L~eflected Wells (Cont.)
disregarded in computing the bottom hole pressure and consequently
-onsiderable errors have been made in the past. In figuring out
the actual bottom hole pressures for deflected wells appropriate
qorrection must be made in cases where the column of liquid is not
vertical. At the Atashkya oil field (Molotovneftle administra-
tion) most of the wells have been drilled at an angle, some of
the bottom holes being as nauch as 250 metera away from the per-
pendicular passing through the opening of the well. The table
shows the results of measuring the forwition pressures with a
meatometer in deflected and vertical wells. Column 8 shows the
approximate pressure obtained by multiplying the length of the
liquid column by its density. The resulting pressures are much
higher than those irdicated by the manoweter. In vertical wells
there is practically no difference between the manometer readings
and calculated readings. It is concluded that the elongation of
the liquid column due to the inclination gives rise to false
bottom hole pressure. The greater the inclination angle the more
pronounced the error.
AVAILART Library or Congress
Card 2/2
UIZAROV I*&*
Ksans for iaareastaC the productivity of sand producers. Aserb.
naft-khos. 39 no-801-32 Ag 160. (MM. 13:11)
NAZAfmo I.A.
Prospeats for finding gas &M oil In the EArnaki aeries of
the southwestern part of the Apsheron FordusuU, Klaftzigas.
cool, I loofis, noo?tll-14 163. (MIRA M10)
1, Neft6promWmlovays uprayleniye "Karadapeft',"
66201
SOV/146-58-6-1/16
AUTHORS: Smolov, V.B., Candidate of Technical Sciences, Smirnov,
N.A., Assistant, and.Naz_ax9y,,.,j.A.. Candidate of Tech-
nical Sciences
TITLE: Application of Rotating Transformers (VT) as Function-
al Transformers of Approximate Action
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Priborostroy-
eniye, 1958, Nr 6, pp 3-13 (USSR)
ABSTRACT: The rotating transformers (VT) are typical induction
components of electromechanical modulating plants, and
serve for the realization of equations of the type:
U11 cos ' - KT
U12 sin ..
U21 KT
1
2
U12 Cos ~ , where K T
U11 sin. + K T
9
, K T
V KT
U22 KT
2
I
2
3
4
KT are transformation coefficients. In accordance
with the above formulae the VT can be used for the
Card 1/3
operations: a Turning of axes of a rect-
following
66201
SOV/146-58-6-1/16
Application of Rotating Transformere (VT) as Functional Traneformers
of Approximate Action
angular coordinates system at an angle. comput-
ing thetension values U 11 and U 2 at 45 const.;
c) scanning of vector R(U 11 into its components
U51 and U in a r-etarl ular coordinates system;
d buildi~j of vecior R Up %) in a rectangular coor-
dinates system; e) multipi;ing the value U by a
constant multiplier. The number of operatiAS which
can be performed with the aid of VT will be consider-
ably increased if special connection layouts will be
used. The layout PP (Figure 2) realizes the trigono-
metric polynom
k
Z(X) A x (0 x - x
=0 k max
In using electronic numerical computation devices with
different control layouts, it is often an advantage to
have functional transformers which transform the in-
going continuous values into discrete ones. These
Card 2/3 trarlaformers, unlike linear transformers, realize the
bl--*"'
6620t
SOV/146-58-6-1/16
Application of Rotating Transformers (VT) as Functional Transformers
of Approximate Action
transformation as N - f(
H = f(uBx)
The analyzed layout of VT in a capacity of PP of ap-
proximate action permits enla:-ging of the field in
which the standard induction elements of computation
designs of continuous or discrete action are used.
There are 1 table, 4 graphs, 8 schematic diagrams
a:..d 2 Soviet references,
ASSOCIATION: Leningradskiy elektrotekhnicheskiy institut imeni V.I.
Ullyanova (Lenina) (Leningrad Electrotechnical Insti-
tute imeni V.I. Ullyanov (Lenin))
SUBMITTED: September 6, 1958
Card 3/3
Card 1/2
26637
8/044J60/000/003/009/012
C11110222
AUTHORs Nazarov, I.A.
TZTLEi the approximate representation of some functions in
high-espeed, digital computers
PERIODICALs ReferatiVLIYY zhurnal. Matematika, no-3, 1960, 161,
abstract 3495 (Inv. Leningr. elektrotekhn. in-ta, 1959,
vyp.37, 283-2;9)
TEXTs The author gives the first 5-10 coefficients of the
development In Chebyshey series for the following functiones
sin ltz ( jxj 19, 1 ); arc sin x( I x 1!~ 1)1
2 -r2
arc tg x(1 X I Al tg 0 X 1
X 4
2 t2 2" 2
0 dtQx 1
.,n . The
obtained results are applicable for proving the assertions of Khaffmen
(Haffman) (R Zh. Mat, 1958, 6699).
[Abstracter's note t Complete translation.]
Card 5/5
NAZAROV, I.A.; WAMIKAUp A.L.; SMOLOVj V.B.; STEPASHKIN, G.I.; STIONOp V.I.
Electronic calculator of the propagation velocity interval
of elastic vibrations for an acoustical logging device.
Geofiz. prib. no,9s46-64 161., (HIRA 15:11)
(lag ing (Geology) -Fquj;ment &W suppliee)
lElectronic calculating machinas)
~f7 Til-
NAZAROVA I. A. and SELIVANOV, K. P.
"Hydrotechnical Antiralaria Measures in Connection With the Plan for
Transforning Nature," Vrachebnove 2LIoj Vol 6) 1952, pp 527-530.
NAZAROT, I.A. (KIyev)
- : , Voirmntion of "bloom' on vonda nnd Its control. Vrnch.dalo
suuplenent 157:10FI-109 (Hru 11:1)
(PMS) (AWAE)
f MAZAROVO Z.Ao _yew)
1.4- 4 .
Sanitary and malaria pr*vontive wasures applied dcring the irrigation
of step a regime ta Crimea Province. frach.dolo no.4:397-399 Ap 15?.
7CRIKHA-URIGATION) (KLRA 10-17)
(KAIARIA-MUNT ION)
RiAZAROV, Ivan eaViO; GNATUSF,LX-LrI!r.PtLah,A I-I 'I otv.red - MIE0 Yu.G.
__An4L
------!Tra-f-Ikoju.H.JPred.; ZEI-",IKGVA,E.F.[Zelonkova,,iE.F.), t*ekh,n. redo
[Organization of fish ponds in collective fame) Organizatsiia
stavkovoho hospodaratva, v kolhospakh. Wvq 1961. 46 p. (To-
varystvo dlis, poslWrennia politychrqkh i naukovykh znant Ukrainslkoi
RSR. Ser.5s no.18) (Fish ponds) (MIRA W12)
GASIM, I. I.; MLAMOVp G. G.; HAZARO., I. E.; SM&IFTIYEVv A. Ft.
"The size distribution of radioactive particles from auclear weapoa tests and
their transport in the atmosphere."
paper to be presented at Symp on Atmospheric Chemistry, Circulation & Aerosols,
Visby, Sveden, 16-25 Aug 1965.
Hydrometeorological Service USSR.
OUSUO, G.I., kznde takhn. nauk; TVIKOTs P.I., kand. teldin. nauk;
FREHMI, Z.H., Inch.; MYAUV* V.S., Inch.; WAROV, i.r., Inch.
(Kharlboy) V4~-~ ~11--
Increase the datlr average nIleW of diesel locomotives uP to
900-1000 km. Zhel. dor. tranep. 41 no.10:59-62 0 '59.
OIRA 13:2)
(Diesel locovotiven-Performance)
0 ZA k0 V, -I:- - ~- -
USSR/OrGanic Chemistry. Synthetic orgaaic Chemlatr7. E-2
Abs Jcur-, Ref Zhur-Wmlymo flo 69 1957.* 19191
Author : Hourov I# I*# Cherlmova Ye. M.
Inat, I
Title I Synthe IC Anacathetica. 11. Complox Ethers 1-aldyl-l-
pizmwl-3-(U-wperidyl)-propene-l-olose III* CoMlox ethers
I-pbanyl-l-aMwl-2-mtbyl-3-aallqrlamincpropene-l-oJLes.
0;. t ri F ub :Zh. Obuhch. gumiyi* 2955, 25, 11c, 11, ig.",5-19421 2,120-
PILZI.
Abe
met-. 11. For the Lavestlaition of nav anaesthetics from ,U-
Wer Idyl2ropiaphenone (1) by the action of Mg-orawle
ampounds-were synthesized coupounds of the type C5711-OH-
IC92C%C(C60~) (R) OH.(11). At the enlication of I in
thd form of the hydrochloride the yield reaches 7 '8-96~-
DY hydration of I is obtained I-pherqlw3-(IT-PYPerIdyl)-
propanole-I (111). By the action of chloranbydrIdes or
Card 1/11
Card L'/ J.L
USSWOrganic Chemistry. Synthetic organic Chemistry. E-2
Abs Jourl Ref Zhur-Rhimiya, uo 6, 1957p 19191
and 105 cc ether) at 10-120 is gradually added 15-9 9.
hydrochloride ly stirred at 200 for 2 hours; on the sec-
ond day it is heateg 2 hours on a water bath, hydrolized
with KC1 (1:1) at 0 p the water Wer is treated with
IIH40% and 7856 11 is obtalned (R-C )0 b.p. 13!5-139*/2-5
cm. Analogically are obtained theVIlloving II (given
R, yield in ~j m.p. in OC)- C2H5p 96, 79-81 (from benzene);
C .90-5 (from acetone j hydrochlorideo m.p.
J~H
511'96'Z', Ll, 80v 56-57 - To 3.42
GAP 88, 51-52; '60-CA
S. III in 4 c- dry C6U6 at 00 is added 5-86 9- C6H50CH2-
C001, heated 3 hours at 90-1000p added 30 cc water and
2-3 cc HM (1%l) and obtained are 78*90p W (R-H; Rl-
-020%H8~0 b.p. 186.5-lW-50/1-5 vm; hYftochloride m-P-
168.5-17 (from acetone-chloroform). To 2.33 e. II
(R=CH3) in acetone at 00 is added 1.82 S. C6H COU; on
the second day is isolated the hydrochloride (R-CH 3'-
Card 3/11
4`6
USSEWOroEtnic Chemistry. S~mthetic OremnIc Chemistry. E-2
Abs Jour: Ref Zhur-Wmiyap No 6p 1957j, 19191
Was O6H5) yield 50ep, m-p- 180-1820 (from acetone). To
a mixture 2.33 e. 11 In 5 cc C6% and O-P-4 g- M9
6; yield of
at 00 Is added 2 q. C61~MCMCI In 5 cc C69
hydrochloride IV tR=CH 0 R'o CROCHC6H5) is 36~, m.p. 188-
16965 0 (from acetone-ah.) TO 1.85 g. rz (R-ca ) in 6
cc ether Is added slowly 2.04 g. %H500e= in 4 cc
ether; several, days later the precipit&ted sediment is
ground,with abs. ethero and with a yield of 43.8%. is
obtained hydrochloride IV (ROCHjs R'sCH, 5)0 M.P.
139.5-1410 (from acetone) - 3 g. rx Ot. !up 3 -T2 6-
1V (R=CpH5j Rl- gj), bep. 138.5-139.5911N mm,- bydro-
chloride# n.-P. 136-1380 (from acetone). Analogically is
obtained 41% IV (R-,Rl Of 41-14LYO/I =; hydro-
05) p b 1,
0
chloride# M.P. 158-5-15 (from acetone). Th 5.o7 S. ir
(R,wCLiq5) in 6 cc 061% to gradually added 8.74 g. C Cocl,
heated 1*5 hours at IWO# and obtained are 3(YO4 IV X14
Card s 4/Ll
V. (7 6.
Card 5/11
USSR/Organic Chemistry. Synthetic Organic Chemistry. Z-2
Abs Jouri Rat Zhur-KhWyat No 69 1957t 19191
are heated 5 hours at 140-155* and 18.4% IV (R.
w'03V.199 Rl- C611,r~) is obtained, m.p. 109-1110 (from acc-
tono). In passing 111311 in a solution r1a, IVb and IVc in
absol. ether are obtained the corresponding hydrochlor-
idea 11 (R- C3117) I ir (11-0411~), m.p. 2111-2160, and 11
(11 "Rise C It 1) m.r. 238-21460 (from acetone)* To 5 9-
II (R:;j;J in' 6 cc dry 061% to gradually added 12.1 g.1
S00121 boiled 5 hours and 72.5,", Ila or b Is ok tained,
b.p. 117-1190/1 =; hydrochloridet m.p. 196-200 (from
acetone).
ITI. In the development of the previous Investigations
(see report Ip RZhXhim, 1956, 71688) ulth the object of
pharmacological tests ware syntlinaizod a series of amino-
alcohols 00150R(OH)CH(C115) MONT
q (1) and their com
2,
ON
ploix others 061L-CR(OCORI)CH(CH~) Cli3)2(II)- I is
obtained with a 2good yield from the hydrochloride (HC)
Card On
Card 7/11
USSR/Organto Chemistry. Synthetic Organic Ohemiatry. E-2
Abe Jours Rot Zhur-Mmiyal Ito 61 1957, 19191
170-1710 (from acetone). To.0110-gl (from 4.1 M& and 24.5
g. CH31 in 60 cc other) is gradually added undor cooling
12 g. 110 111, left standing 11 hourst bolind 4 hours, do-
composed with 18% 1101; the water layer is saturated with
alkali I and with other to icolatod I (R-Qj), viold &%,
b.p. 90-910/1.5 mm m.p. 42-430; HO, m.p. 179-1800 (from
acetone + chloroform). Analo5ically arc obtained (utilized
are M-IgBr) other I /afro given Rp yield in '.19 b.p. in OCI
=, m.p. in 00 !10, '(Bolvcnt)7- %,15, 66, W-12s/5, 32-53,
177 .5-173.6 (acetone-ale.); n--C3H7, 6o, 1o9-111/1,-, 174-
175 %acatono-othor); n-C41fg, 59, 117-120/1- 158-159 (aco-
tono); iso-CrI111, 70, 120-122/1,5-2-, il,7-1118. To 1.95
.7i
I (R=11) in 8 cc anhyd. 06% is added 2.75 cc C6115COCI in
3 cc C016t heated (1 hourt 80-900); aftor 12 hours is
added 10ce othcr and heated for several minutes. The
roalaxio is heated with acetone and recrystalizod from
Card I a/11
USSR/Organic Chomictr/. Synthotic Organic Chomintry. S-2
Abs Jour: Rof Zhur-Khimiyag Uo 6# 1957P 19191
Ila; 169-1710 (from analogic.~ 11 iu obtain-
od (5 hours hoating) 11 (R-P'-OpI15)p yivld 6k1'!O b.p. 113-
11 0/1-5 =-; HO m-P. 1400-20210 (from acotono-chloroform).
H-~COC1,
A mixturo of 2.04) g. I OC"00 2-8 cc 06., 0-3 Mg in
15 -~c 006 is left standing 12 hours, hoat5d an a wator
bath 6 houra and thon 'I hours on adding a portion of
other$ in tho procipitato is 41C-1I (R-C"3, 4t'=06q5)P Y'01'
73%, m.p. 181-1330 (from acotono-ale.). AnaloTically from
2.2 g. I (R-02H5) Is obtainod a baBo II 0.11 111-
4611r,)# yield 1.1 g., b.p. V0-1700/1 mm, m.p. ?ic' 176-1760
~j 1 2.2 ZX61150CH2COM,
(from acotonc); from ').2 1 (R-92V5)
01 g. It., and 16 cc ab3. oihor after tbo soparation of the
precipitate, dissolving It in a mixturo of abs. alcohol
and acatono and partial svaporation of the filtrat.,,,
aro obtpincd 1 Z. 10. 11 (41 =C 'I al-01120C61lix?) m p. 147-
1480 (from acotono' -OthylacXZ); from 2.3~ p,. i (R-n-
Card 1 10/11
KAREUNp Ta.A.; UZAROV, LL; SHNAS07,, D.A.; ZHUMVP D.A.; Mkt~xv V.H.
Ekporimatal Iffest1gatIon of the Wo-stage blddhemlca2 purification
of the-vaste waters of eloctric desalters of tha Ck#k Petroleum
Ibfinavy. Mda. i tekh. topl. I masel 6 no.11:23-27 is 61.
(HM 3402)
1. Mbskovskiy iazhenerno-stroitelinyy institut im. VVIKuybhsheva
I, Orskiy neftepeyerabatyvarmshoMy zavod,,
(Qvak,~-Petrole= vapte-PurIfication)
ZHUKUVI D.D.; KAHELIN, Ya.k.; MEDEIM, V.M.; IUZAROV, I.I.; SHMSOV, D.A.
Additional experimental investigations of a tv,-stage bllochez-ical
purification of vante waters from the Electrical Desaltirg -unit
of the Orak P6troleum Refinery. Khim.i tekh.topl.t musel 7
no.9:19-23 S 162. (14111A 15:8)
1. 146skovskly inzhenerno-stroitollnyy institut im. V.V.Kuybysheva
i Orskiy neftepererabatyvayushchiy zavod.
(Orsk-Petroleum-Refining) (Sewa~e-Furification)
T4t She7tSOT*--- 1).
product
-,Iwa With the dual rqault
- .r- ~! -1 OrT, jtjt)j~ , -,4 nt effort bY the
'lie
Optioum procCaB 100 nd4 t,
Cc- rJ
7
Wa4u; 9 cLnd IV
dry bacterial PrO-
Solvent;
C~cird
k-7, r~
RIM PLP50098-98
0~ -,Iciy
7-1
ATD PW-'-v>->'
'DO!
OU5 G
ACC NRt
AP7004795. GOCS CODE: UR10413/6710001001101RIGI31
IINVa-MR: Irikhimovich, K. I.; Nazarov, I. I.; Semenov, 14. ff.
ORG: None
FITLE; Ainethod for nmking food loaves. Class 53, No. 190196
OURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 1967, 131
1TOPIC TAGS: food technology, food ration
ABSTRACT: This Author's Certificate introduces: 1. A method for making loaves from
I
ood substances such as jelly by filling hollow tubes with a paste to make the loaf,
T
Pooling the tubca, and aubacquent raheating with simultaneous melting of the upper
tayer of the resultant loaf and emergence under its own weight. In order to produce
11oaves with a gelatinous crust and'various types of paste fillers, an agar-sugar-
molasses syrup is poured into the hollow tubes before filling them with the paste and
the tubes are then cooled with continuous rotation. 2. A modification of this method
in which the agar-sugar-molaoses syrup is introduceil in a quautity sufficient to form
'a crust with a thickness of 3-5 mm.
SUB CODE: 06/ SUBM DATE; 050ct65
Card 1/1
T-M91,
. . . . . . . . . . . .
a
NAZAMp I. L.
Study of normal subjects by mean& of ultralow frequency balllsto--
cardlograpby. Terav. arkh. 34 n0.4:36-46 162. (HIRA 15:6)
1. Tz kafedry gosputallnoy terepil (zav. - prof. P. K. Bulatov)
I Uningradskago meditsinskogo instituta imeni I. P. Favlova.
(BAUISTOCARDIOGDAPU)
NAZAROV, 1.L.
7:
-:a - I r%, ~ sn of 2
3 no.5:'It,79 S-9 63.
1. Iz kafedry goir,itallnoy terai-Al (7-1".
I Lcnirif-,ra-skoi-o mc.". inotituta ir%f-rii
TIAZAROV, I.L.
Analysis of the systolic phases of the left ventricle In chrrnic
lung diseases. Kardiologila 4 no.4161-& JI-Ag 1 64
(MIRA 19:1)
1. Kafedra gospiiaLt'noy terapii ( sav. - prof. P.K. Bulatoy)
1. Leningradskogo moditsinskogo Instituta imeni I.P. Pavlova.
Submitted October 13, 19621.
NAZAROV, I. M., Cand Of 'ech Sci -- (diss) of The moans of 1ncrcas1rL;7, the
I
accuracy of a divided calculation of radioactive elemonts In their
combined state in a laboratory radiometric measurement." Vosvow, 1957,
8 pp, (Ploscow Geol-)g1cal. Prospocting Institute im 3,, Ordahonikidze),
100 copies (KL, 30-57, 110)
AUTHOR: NAZAW I.K. 69-M/26
TITLEs Determination of the Natil"lli, Radioactive Elements using a
labomtory Radiometer. 'RavddtWe )orcdc'entp yettestyannykh radio-
aktivrkvkh elementov, Russian)
FkMIODICAL: Atomneya Energiya, 1957, Vol 3, Nr 8. pp 121-129 (U.S.S.R.)
ADSTRACTs On the basis of 24. citations from published works the author shows
what system of equations must be solved for the various known
methods in order to deterudne the natural con1ent of U, Th. Ra
mid K. The known methods which am be carried out with a normal
radiometer are based upons a) Measuring of different kinds of
radiation, b) Discrimination f a t e f radiation, 0) use of
additional amemtLon measurements, Id Glination of the
measurements mentioned under a) and b). (With 5 Slavic
References).
ASSOCIATICUt not given
PRESEITED BY.,
SUBMITTED: 22.1-1957
AVAILABLE: Library of Congress
Card 1/1
1, DIMT, 1.11.
Using statistical methods for controlling the operation of radio-
metric apparatus. Izv. vys. ucheb. cav.; geol. i razy. 1 no.4:133--l:;5
Ap 158. (14IRA 11: 12)
I.Moskovskly goologorazvedochnyy institut Ineal H.S. Ordshonticidze.
Xafedre spetsiallnykh metodov razvedkl.
(Radiometer) (Vathematical statistics)
HAZAROV. 1.11.
Statistical evaluation of radiometric measurement and control
of equipment performance. Trudy MGRI 32:128-138 '56.
(MIRA 12:10)
(Radioactivity--Measurement)
BOLTNEXA, L. I.; VASHOIKO, V. N.; DMITRIMI, A. V.; IONOV, V. A.; KOGAIJ,
R. M.; MIZILIT30VA, Z. V.; IIAZAUR, 1. 11,; YAGOLOVSKII, 1. V.
Use of the method of air-borne gazza-spectromatry in studying
the radioactivity of granitoid intrusives. Izv. AN SSSR. Ser.
geofiz. no.6:858-871 Je 164. 17:7)
0 0 0
66576
SOV/149- 5 9 - 9 - r--1,--'5
AUTHORS: Kogan, R. M., and -Nazarov, I. M
TITLE: On the Accuracy of Measurements of Non- 1c.t a t;-, oil
Radioactive Radiation Fields
PERIODICAL: Izvestiya A4':ademii nauk SSSR, Sel~iia
1959, Nr 9, pp 1353-1358 (USSR)
ABSTRACT: In geophysical studies one often i--as to aeal
Y;hich the radioactive radiatio. ield rfzccr~ied 'L,-i
-I f
detector is a function of time. This 11,c aue tc)
in the emission or absorption propertuies of
changes in the dista"ce brjL,.,,eer,. the detector arc,
tinb source, or a combination of thest~ I'actors. The
radioactive radiacion field is defined as non-sration&r,,;
when the above Gene.-al situation occuis. T'lle
6 ' b- t;
rate recorded by the jetecror io, denoit.,(L y F(
maximum value of F(t) is no, It follvVis t1hat. FW
nof(t), where f(t) !5:,~ 1. The main limitation %-;hic-n i,,;
imposed on F(t) in this discussion is that, tiie disperE,ion
of F(t) during the time interval t ---~ t + dt i~; F(t)r-'t ani
tha dispersion of the interval t1, t2 J-s
t F(t) (it,
f
Card 1/4 tj
C_ ()-, , - -
~~'o V/,/; C! -
On the Accuracy of Measur-~,~men!,:~ of
Radiation Fields
(Refs 1 and 2). It may 10e, sho,,,;r, that. 'h,,
is justified in i~,eaphisicii ubsei,vatlon!_, ~n mr;riy
practical cases. The limitation is no,~,
fied when the tilme of observatioii Ls,
half-life of the radioactive sub_,-ta.,~(,e arej.
taken into account in the wor.~-. of S',*iiff anj (R:if
Under the above coildition it is t C) J e 1%:1 1
r I C e L. V I ri.-* ~:l
the dispersi)n in the count,_n,,~ ra'e, fr) d(
inertia. The most widely emplc.-;ed iner-tial Sl-,-tem u_,-eS ~~fA
RC inteEratiriL_-, element (Ref 4). The deterrnin~~-iori of
dispersion of the recorded countin, rarp, for r3
Is investi6ated in the present paper. T-,,.e
tained are summarised in Table 1. The first colinri ,;I'
this table Gives the type of the fielld
second column 6iveg the parameters employed and t:i~,~ t"I.Ird
the recorded countin6 rate and its disperoion for
to--.# - 00, Where to is the tilne at whl'c~l
ments on the radiation field begin. The followli:,_, C _~ Lil F
are considered: 1) constarit f ield, f I
Card 2/4 ,ular pulse fi(t) = 0, 1 for T / t < 0 cl~
665'1~6
SOV/,L9-
On th(,- Acr~iir~jr-v (A' I of R;~
Radi a L ion Fin I ds~
re specl~ iv,~,. 1~1; of i
4 curve t,i:p
an exponential f(t)
t 0 ard f(t) 0 foL- t < 0-
,, _ (,, ,: ~, . r:
f 1 .,XP (-Xt) Ir, th, n
D tSiv,-,n by En (L~) jZ; r;,-j I C U L,,
in column 3 of' Table 1, In practicc.,.,
investil,l-ation
ConstaiA bic',:L.,routjd fi.ld, If the olin,'i
the anofflolous, field it i-,,
a time constanr so rha,~ onf.; obtains til-
I; ion a. airiz,; t; t h.-, bb (-- kc r,()unl Tlhe-
have 1)(,,eii c, ~d ou' I) v h--- "ILI rriO P
nrrie
Marised in FiLs I ~Jriu Ll L~iv(-, fol,
optimum values of Oie time, constaril, unj-.,.,
conditions, T1,r.-re aL'C' ~-' 1, -~.I.C; ~,:.
4 of "'Alich are Sovit-.11- (I E!:, 1 1-,L)
4 En-lish.
Card 3/4
66j76
u V / 1, cl - 5 9 -
On the Accuracy of' M~1-5 --3 Of 140!., - Z-_a--. irjn~.
Radiation Fields
ASSOCIATIO14: Ak&~Jemiya na.W~ SSSR. Institut prikla(Jnoy
(AS USSR, Instil.-iiti,, of ApTIied
SURMITTED: January 5, 1959
Card 11/11
NUAROVO j*Ho-
Alpba-pulse cham r with steppod-up sensitiviti. Blulnauch.-tekh.
Worm.VII6 no.1:39-43. 160. (HIPA 150)
1* Institut prikladnoy geofizW AN &SSR.
(Geophysical instruments) (Alpha rays-Indu trial applications)
RA T.YA 9 N.D.; HAUROV, I.H.
Statletics of ths perform=9 of differentlal car*uters. Pribei
tekh.ekep. 6 no.5:74,-77 S-0 161o (MIRA 14:10)
1, Institut prikladnoy geofisW AN WSR.
(zleotronio analog computero)