SCIENTIFIC ABSTRACT NOSEK, M.V. - NOSENKO, N. M.
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CIA-RDP86-00513R001137320009-5
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RIF
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S
Document Page Count:
100
Document Creation Date:
January 3, 2017
Document Release Date:
August 1, 2000
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9
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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BUKRWV S.P.; MOSEK, K.V.; PUZV~Klr, K.T.
Reduction of arvenia by zinc awlgam in the presence of iron and
&itimony, ions. Trudr Inst,,khim,nauk Alt Kazakh,SSR &W-130 160.
(MIRk 14CL)
Urae4c) (zina)
HOSEKt M.V.; BUMAN, S.P.1 KOZLOVSKIT, M.T.
Ufact of temperature on the rediiation of amenic by sina &=1pre
Trudy Inst.khim.nauk AN KasakhXSR 6tl,31-137 f6O. (HIRL i4-~-U-
(Arsenic) (zinc) ,
BUMMM, S.P.; HOSES, M.T.; W=VSKff, H.T.
Effect on indim ions on tba reduction of arsenic by zinc
um%ax. T~rudy rnat. khim. nauk 0 Enakh. SSR 9:M-130
IA2. (KM 16:6)
Araenlo)' (Amalvms)
rndium compoundal
~
NOSEXI, M.V.,; BUMMM,, S.Pl.; I=T-OVSKIYO M.T.
Reduction of s, mixture of tri- and pent&,ralent arsonle bT
nine amalgam. Trudy Inst. khim. nauk AN Zizakh. SSR 9t131-134
162, (MM 166)
(Arsenic) Reduction,, ClIamical)
tigams)
MURATOVA, Ye.B.; BUKHMN, S.P.j NOSEK# K.V.
Reduction of trivalent arsenic on mercury and zinc-awlgan
cathodes. Izv. AN Kazakh. SSR. Ser. tekh. i khim. nauk no.2:
15-25 163. (HIPA 17t2)
'71,J) ,'O."o
d1i I I , ~ . ; 14. , M.V.; DE"I";10", , "
..6 .. -'"
Nxriutth by the rX var--auu
Zhur. Phl,.,Ti . Yl nu . 9: 1930- 193~, ':, 164.
SUMI'VIIJ, S.P.; !jObF-F.".M-V-
Electrochemical study of zinc-nickel amalgrams. Trud7 lnsy,. kh!=.
nauk All Kazakh.SSR 12:99-104 164.
Effect of nickel ion$ on the reduction of trivalent arsenic by,
zinc amalgam. Ibid.:105-108
Reduction of arsenic by zinc amalgam in the presence of tin alloys
in solution. lbid.;109-113
Aralgam method for the production of pure cadmium from cadmium
sponge. Ibid.:183-185 (MIRA 18:2)
JJOSEK N.V.- YAN SHO-SYAN, G.V.
I
Physicochemical propurties of the
Tnidy I not. k)-. i -,I. nauk il.!,' Ka --akh . S-Sr' -12: 166- 17 1'~-4.
18:2)
-ITwKxV" - --- - - - - - - - - - - - - --- I - - - -
~ I-- ----
For a greater concentratich on inventions, p.l. (Technicke Noviry. Preba, Vol. 2, No. 20,
Oct 1954) .
SO: MonthV list of East European Accessions (EM). LC Vol. 4. go. 6. Jum 1955, Uncl
NOSEK, 0.
AGRICULTURE
Periodical MECHANISACE Z114EEEMVL Vol. 5, no. 24, 1955, Dec.
NOSMp 0. Outlook for employment and increased income of tractor operators of the
machine-tractor stations in the winter period. P. 462. -
Monthly List of East European Accessions (EiAl) W, Vol. 8, no. 3, Harch, 1959. Uncl.
NCSEKP 0.
Invention of a fire-prevention device; a Czechoslovak in"Atiow of far-reaching
econcede conmquence. p. 4V
TECHNICYA PRACA. BratislaTar Czechoslavakia,, Vol. 7. No. nr Nov. 1955
Monthly List of rast, Kuropean Accessions (EELI), LC. Vol. 8, 11o. 9, September 1959
uhal,
C'.
Technical innovations arour?d us.
p. 15 (Vynalezy a Normalisace, Ochranre Znanky, Chranene Vzory, Vol. 1. no. 2.
AuE. 1957, Praha, Czechoslovakia)
Monthly Index of Ea5t European Accessions ( MAI) Lr-. Vol. 7, no. 2,
February 1958
NOSEF, 0.
Vlomen as Inventors and improvers of new technolop7; a few examples of the ingenious
worV and rsults achieved by woman inventors. P-83.
(Sbirka Vynalezus Vol. 6, No. h, Apr. 19517, Praha, Czechoslovakia)
SO: Yonthly List of East Furopean Accessions (EEAL) LC. Vol- 6, No- 9, SePt- 1957. Uncl.
Ir
Mc,71 IS.
The warp tonsicn on the loom.
p. 123. (Veda a Vyzluri v Fi-uryslu Toxtiinim. No. i , 1956, Fraiii, CzcclioFiavakia)
I
Eonthly Index of East Ebropean Accmdons (FFAJ) I.C. 1.0o1@ 'I# n(), 2,
Febmary 1r,-58
NOSEK., S.
Preaking strength of a skein with threads fimly craMed. p.68.
(Textile, Vol. 12, Vo. 2, Feb. 1957, Praha, Czechoslovakia)
SO: Monthly List of East European Accessions (EEAL) Lr- Vol. 6, No. 9, Sept. 1957. Uncl.
HOSEKs S.
Determining heat conductivity in textile fabrics. P* 13*
TEXTIL. (Kinisterstvo lehkeho, prumyslu) Prahas Czechoslovakiae Vol* Us
no. lp danuary 1959,
Monthly List of Ekst Ehropean Accessions (=I) LC, Vol. 8, No. 1l,,
November 1959o
Uncl.
I;OSEKS V.
Production of crankshafts. p. 202.
STROJIFOSKA VYRCOA. (Mirdsterstvo tezkoho strojirenstvi, Mirdsterstvo presneho
strojirenstvi a Fllnisterstvo automobiloveho pruWslu a zemedelsP7ch stroju) Praha,
Czechoslovakia. Vol. 7. no-a 5. May 1959o
Monthly list of Put European Accessions (99AI),, IZ,, Vol. 8. no. 10, Oct, 1959. Uncl.
Dw,;m, V. CSI~R
lbvalopmantal FWmad.Canter (Fozvojave lekarrdcke stredisko), Praguo
Bratislava,, Farmaceutic!z Obzqr, No 1, 1963m, pp 25-29
"Planning and Standardization Activities in Phu-nacies"
(I)
.Now I
m1wr 1 1-4-1 "Mmmy Contm (am"Is" Idw"oke *Us"do)v Free=
5mmolaws AMINNOWX lb 2p Fab 196fit pp WTI
alftaftle"Ams gove"Lift 4he spows"as am& xwRing at vbs~di"~w
CUJCUGSU;WAKIA
- Rome T.
No Uffiliation giv*n
Bratiglavag Famacauticky obsor, go I [Jan) 1967, pp 46-48
"Report of the jalAt comission on the tachideal development of
pharmcies In CaschaslavaUa."
,vosck AKIA
TA"Me 16l ILWOI&U* Lal *(*~ TIC'
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S/135/60/000/003/003/005
A115/029
AUTHORS: Davydenka, I.D., Candidate of Technical Scienco,3, Koshevoy, V.P.,
Nosenko, A.I., Graduate En neer3
Plate stgel
Tr=: Electric Slag Are Weldlin of 1X18H9T QKhlQN
PERIODICAL: Svarochnoys proizvadstvo, 1960, No. 3, pp. 23-27
TEM The authors discuss V.~chnological feetues of electric slag butt
;welding of 5-m long joints on qtalnless steel plates. INTests were performed with
an A-340 (A-340) single-electrode device fed by a T701-1000 (PSM-1000) welder.
AHO-5 (AW-5). A H -26 (AN-26), 48- 00-6 (48-0F-6) fluxes and 3 mm Ca-X25 N 13
(Sv-Kb25Nl3). Cc;-l)(l8H9T(8v-lKh18K9T) and Ca-IX181496 (34-1XhIBU93) filler'
wires were tested an 36, 60, T5 mm thick and TOO-1,400 mm long lK18U9T
(lKM8K9T) steel-plates and on boiler ahells of 3,100 mm in diameter composed of 6Q
75 and 90 = thick 700 x 5,200 mm sheets. The length of shells was 700, 1,400
and 2,100 m. The 36 = plates were welded at a filled-rod rate of 2.16 m/h,
500 amp, 40-44 v, welding rate 1,5 at/h, throat depth 4-50 mm, butt d1atance 28 mm.
The variations in the chemical composition of basic metal, filler wire and aeam
metal are shown in Table 1. Corro5ion-resistance of joints was examined accord-,
card 1/4
85286
S/135/60/000/003/003/005
A115AO29
Electric Slag Aro Welding of I X18 H9T (lKhl8N9T) Plate Steel
ing to methods A-1 and A-2 or rocir6op-51 (GOST 6032-51) on 90 x 25 x 3
samples shown in Figure 1. After 48 hours of boiling In a copper sulfate and
hydrosulfurto sold solution the samples were Inspected to the lose of wetellic
sound and bent at an angle of 900. Austenization Included exposures to 1,
1,0700 C for 15 minutes. Results of these tests are shown in Table 2. Th~-00_-
mount of ferrite phase determined with a TsNIITK&ah m atic ferrito-meter on
LM-aga
samples (Fig. 2) to shown in Table 3. Metallographle examination revealed no
cracks or Impurities (Figs. 3 and 4). Figure 5 shows hardness zones of the weld-
ed joint. Mechanical tests gave satisfactory results, and highest corrosion re-
sistance was established In joints welded by Sv-,lKhl8N9B wiree with 48-OF-6 flux
and 8V-Kh25N13 wires with 48-OF-6 and AN-26 flux. Flux 48-OP-6 is less oxidiz-
ing than AM-26, but the latter has superior technological properties. For -*eld-
ing of 60-75 mm thick and 700-1,400 mm long plates the ditatility of 48-OP-6 flux
was Increased by addition of A1203 and reduction of CaF2. This modified flux re-
ceived the designation TK3-F(X (iU-11M). Its chemical composition and welding
conditions are given. Sv-lKhIONgB filler wirer. with TKZ-M and 48-oL:P-6 fluxes,
Sv-lKhl8N9r wires with TKZ-M fluxes and Sv-Kh25NI3 wires with AN-26 fluxes were
used. For welding with Sv-lKhl8N93 wires I % of aluminum powder was added to the
Card 2/4 %-1
65186
S11 35/60/0W/003/003/005
A 115/4029
Electria Slag Are Welding of I X 18 fi 9 -r (lKhl8N9T) Plate Steel
-Y
flux to reduce niobium w%ste. This produced good results. For Sv-lKhl8K9T
wires the flux was enri hed by 15 % titanium aluminate ceramic concentrate bound
with water glass. This diminishes titanium wastes but complicates the flux pro-
duction. The chemical composition of basic metal,, filler wire, filler met&1
and the amount, of ct -phase are given in Table 4. All tests were made according
to meL%hods A-1, A-Z of GOST-6032-51 and Am rOCT6032-58 (AK GOST 6032-58)
and revealed high corrosion-resistance of seam metal. and fusion. zone. Mechani-
ca.1 tests were satisfactory and are given.in Table ~. No defects were revealed.
A typical macrostructure'is shown in Figure T. The microstriiature of &.11 typeF
of surfaced metal were oC-phase carbides. A new type jet described by the Plant
for this welding method Is given. 700-mm shell& consisting of two half-shella
were welded by longitudinal seams. Others were-welded of a-3 prefabricated
sheets which simplified the process. Reinforced joints of welded shella were V<
abraded and then subjected to austenization at. 5700C for two hours and at 1,050-
1,0700C for 1.5 minutes per I mm of weld. At 800-9000C some welds with girth
joints fracture and crack during calibration due to heat deformation of theL me-
tal. This can possibly be prevented by austenization, anez subseajent, cold cali-
Card 3/4
45232
S/769/61/000/000/001/004
AUTHORS: Davydeako. 1. D., Koshevoy. V. F.. Nosenko, A -I -
TITLE: The metallurgy and technology of submerged electrc slag welding of
IXISH9T (lKhISN9T) steel.
SOURCE: Avtomatizatsiya i mekhanizatsiya svarki; novoye v svarochnorn
proizvodstve na Taganrogskom zavode "Krasnyy kotellshchik.11 Comp.
by M. V. Korsunov. (Rostov) Rostovskoye knizh. izd-vo, 1961, 3-?.6.
TEXT: The paper. describes the welding of great thicknesses (50-100 mm and
more) of stainless steel for petrochemical and chemical installations. Steel IKhl8N9T
of up to ZO-mm thickness is welded in two-sided automatic electric arc welding
under flux. Ordinary one-pass electric-slag (ES) welding (W). such as is practiced
on. structural steels of great thickness (Th), is not practicable with lKh18N9T steel,
bt:cause it has an austenitic structure and its linear expansion coefficient is so great
that joint-gap problems arise during Wi and the maintenance of a steady arc (A) is
uncertain. The single-pass automatic ES W was perfected to obviate the danger of
A failures. 5-m test W were performed with the self-propelled single- electrode
A-340 reverse -polarity a. c. equipment& supplied from a 11CM (PSM) arc weldez.
Metallurgy: 4 fluxes and 3 W rods were tested (full-page tabulation). The basic W-
process parameters were held coastant.ia all teats. la no instance did the steel
develop either hot or cold cracks. The newly developed W - EMC (TKZ-NZh) flux
was found to be more suitable for ES W than the AH" (ANF-6) and 48-0"
Card 1/3
h523h I
less
TI4Oa5..yoshOVOY' ~de of SuLin sV "Ochnom comp.
ves4cls rn It
of it 5hchi%. SZ.93.
TITIZ. thiCle.. 196,
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-tizatst) n rogsx, ) Rostovs.,O)r,; orn? . and . - -
torn T a toV 'tic I appli
t
V 0 5tvc 5 5 a%I th ec,LL
proj,4 yorsurlov. Stec I esp 1600c). in
Of I W1
by rocess t, inle s 5 S (below r,ble
? ature Ids corllp~L t
I SN9T s ternPar
er descr,- lyh oauce we
b 6 thicir, ,1V low
The pap -n wold pr. I 9T steel' I)e
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ai FyT *. for U 5 e at C, IV ade; tne
welding 0 djre that _r, In " tn
are roce of the ~ Ids %q e r e O~
of raanaa 3 essels s to those, Iona Vic r,-Jachirle
100-M f. d Welding ? - 0 Idin" wire
de-, catiail to is to in rooertle ess' Z-rn w e I,
t-j( Nveldinc
:jty ? jai q JS-32) . rn djarn
Te, roblen" las V're a4- Tile TG- ilizela- I-rn
The P ..'aturo p vj~ r3 U~,
d ia, W 1 0 Paton a SV - 0- d 'at All times
rrc r 14 e was Al YO, I diargi 41 dond wLtll
nt C, ime d et~mrn was
Of ~~ S aehieV 0 ing
VI eldin w
Spec injtj~-, an steady ,c -VI eld
we Id Institute of 9F, IBNo) 3-ra are describ d)
OY, I tAN-2 I)
Tr e-p i CD - of Me Machine
U,ed wit haFu -d ~-cTi
2), L wau racteristics -LCctr I od
a rev electric ch c-s of (T's 1,
-L-9011 Sv-l,:h)5Nl3 %vire. 1 jo- I
C "P;-Iss(us Vvere made 0:1 t1le groove si-
Card Z , a.,d 113
)Welding of vessels made of stainless steel. S/769/61/000/0001004/004
yanss oil the opposite side. Non-fused areas were i-c~nc-.oved by grinding and chippincy
Chemical composition and a - phase content of tho a-.etal are tabulated.
did not reveal any defects. The weld nic.--a-1 a large-grain dend-
--it-'c structure which was austenitic with ferrite and carbidc c'usions. Fully sati3-
-actory mechanica-I test rc-sults were obtained at +20 and (tab-Lilation).
Bac'--up-bar problems: Li order to prevent the "ircezing-on" of Cu back-up bars at
the moment of opening of the welding circuit at the end of a butt joint and to eliminate
Maccessible undercuts alona the edrf~2s of the reverse side off a searn it is indispens-
z..C'le that (a) more massive back-up bars with dep,.-ndable water cooling be used;
~',)) welding be done by c:irect- polarity d.c. ; (c) tile groove ill tile back-up bar be
circular. For 6-mm-thick material th(, groove si-iould be 25 mm wide and 1.3 mni
ceep. Welding of 100-r.13 vessels: The vessels consisted of cylinders with spheri-
cal ends. The procedure, comprising automatic welding of individual plates into
flats and manual welding of the closing longitudinal weld and the annular welds,
is described in detail. There are 6 figures, 4 tableti, and 3 Rus sian- language Sovic_
references.
.ALSSOCIATION: None ,ivL;n.
Card 3 /3
8/135/62/000/006/005/014
Aoc6/Aic6
AUTHORS: Koshevoy, V. F.. Nosenko A I Englne--rz
TITLE: Auto7atic submerged-arc welding of 1XiaHrT (lKhl8,;?T) steel plate
PERIODICAL: O'varochnoye proizvodstvo, no. 6, 1.962, 15-18
TEXT: The Institute of Electric Welding Imeni Ye. 0. Paton and the Tagan-
rog "Krasnyj kotel'shchik" Plant carried out investigations to develop a tech-
nique for the automatic multi-pass sub:ierged-are welding of lKhl8N0T steel
plate. In preliminary tests 7W x 1100 x 73 mm plates were welded with 4 and 5
mm diameter CB-0), X 19H 9 (Sv-04Yhl'~N)) wire under fluxes AH-26 (AN-26),
AHO-i4 (ANF-14) and AY10-16 (ANF-16), and eircumferential welds were produced
on forged rings, 8~,5 r,-~ ~n diameter and 85 mm thick, wit,;, CB-04X19H9 (Sv--04Kh
IQN,?) 5-m-diameter wA're ',Lnder AN26 and ANF-14 flux and witin C13 -06X 19H 9T Vi/
(Sv-06Khl9N9T) wire under ANIF-11, flux. Dine results obtained were used for the
manufacture of containers from 895-mm-diameter forgings with 80 rr,.,i thick walls.
and fro-m 45 and 28 i--irs thick M181.19T steel sheets Intended to operate at
temperatures not -.ver 3600C. The edges of the circumferential seams were
U-shaped. Welding conditions for the two In1tIal layers were 500 - 550 amps
Card 1/3
31135162AY001GO61005101
AutoTatic submerged-are welding A0061AI06
current; 34 - 26 v arc voltage, aiid for the foliatting passes 60o - 700 &mps
and 36 - ~18 v, respectively. Electric slag welding was used for the longitu-
dinal welds. After weldIng the shells were austenized and stabilized, and then
subjected to mechanical tests. The results obtafAed are given In table 4. rhe
investigations lead to the following conclusions; In automatic'welding lKhl81M
steel plate with the use of Sv-01;Khlgtlg wire (with a Cr-Ni ratio > 1.95) and
Sv-06KhlgNcR were combined qith Ah?-14 flux, hIgh-quality.weld joints, resistant
to hot cracks, are obtained, Satisfactory formation of circumferential welds
Is assured at a welding current not over 700 amps. AN-26 flux can be used in
conbination with Sv-04M19N9 wire for multi-pass weldin& but the phosphorus
content must then be controlled and the hot-crack-sensitivity of the wire
verified. In all welding variants the weld metal and the joint showed high
strength and ductility characteristics in both heat-treated and Irdtial state.
Card 2/3
[Iloseliko, O.S.]
Ranges of valuou of StiltJos fullatiollall) With (~4wiljt'-Y, type 'txur;d.-.
Dop. All U1131i no.12:1563-1567 163. OlaiiA 17:9)
1. ZaForozhakiy minhinostroitellnrl itistititt.. ~rudlatavlwno ulluidei~dko:j
All UkeZIl Yu.A. Mitropoll skim (Mytropoll3lkyl, IU.0.11.
M- SOMMO. A.S.-Elfadanko, O.S.]
Some featurex of the conforml O&PRIags of a c1rcular rizC.
D*P-AN URSR W-3:279-284 160. (KIU 13 S' 7)
I. ZAPoroghsidy usshinostrotteliqy Institut* Predstayleno
Wademikou AN USSR I.T.Gnedanko [B.T.ftledenko].
(Conformal viappive)
NOSENKO# A.So [Ifosenko, O.S*1
Raglan-of the values of the derivatives of a convex function
univalent outside a unit circle. Dop. AN URSR no-8:11001-1005 163.
(KIRA 16:10)
1. Zaporoahskiy mashinostroitellnyy institut. Predstavleno
akademikom A$ UkrSSH Yu.A.Mitropol'skim [Kytropollalkyi, IU.O.]
(Functions)
Anatoliy Yefla4uvich; G.A., red.
~ ---, ..,
[High-spa(xi boring) -'Poroatmaia ractwhka. Fharlkov,,
Khartkovskoe krdz~=e izd-vo, Y-)63. 17 p
17:10)
1, fastochnik Kharlkovskogo zavoda pod"ye=o-traLLportxiogo
oborudovaniyfA Inoni Lenina (frjr Eo~-,enko).
HOMKO, A IskeeT Yermnlay~YLO; VERKHGVTSEV, I., red.; ILUhlilt, Yu.,
tekbn. red.
(Stars over the ffteppe]Zwezdy nad sUptiu. Koakva, Gospolit-
iwat, 1961. 54 P. WRA 151ll)
(Collective farms-Officials and employees)
1-100M r Lleksey Ternalpayevichi VEUMMSIV t 1. 9 red.; KLIKOVLe T, 9 tekbn.
red.
[A non of our great people] NarOd& Telikago, eye. Kdakvap Cn-s. Lvd-mo,
Polit. lit-rye 19614 47 PO (MBA 14: 8)
(CollectiTt ferms~-4fflabas ad employees)
BILENIKIYV B.F. [Bilentkyi, B.F.1; PASHKOVSKIY, N.V. [Pashkovslkyi, N.V.];
KS9ffQ,A,.Tpt Llfasenkop A.M.]; GRECHMO Z.G. (Hrechukh, Z.H.]
Optical properties of mercury sulfide. Ukr. fIz. zhur. 8 no.S:
913-915 Ag 163. (MIRA 16:11)
1. L*vovskiy gosudarstvennyy universitot im. Iv. Franko.
I
I
L 31595-66 EWT(m-)/EVfP(Q/ETr IJP(c) JD-
Acc NR, AR6oi6203 SOURCE CODE: uR/oo58/651000/01l/DO35/DO35
TrM: Temperature dowd4MCC Of optical activation energy of =!CM sulfide
1 17
BMCE: Refe sh, Ylsikap Abe. 1=2
REP SOURCZ: 8b. ProU. reavytku pryroft. I tocbn. nauk. Vvft,
k6-48
TOPIC TAGS: mercury compound, sulfide, temperature de%wadenceg activation energy,
absorption edge, activated crystal
ABSTMT: The autbors Investigated the tomperature dependence of the main absorption
edge of Wthetic "&S crystals. At ram ttxperature the win absorption edge in
located near $90 ame.and shifts with Increasing t*qwrature to the Zoa&-waye region,
i.e. 0 the optic actLyiMon energy decreasese The werap chaep of, the optical
activation enera with temperature in the interval 273 - 394K Is found* to be
-8.1 x 10" evidego [Translation of "tractl
SUB CM: 20
ACC NRr. ... P5023923-- 6DEi_V~T0lf3_5T76_5T0 I _0TO 1
(A'Y
AUTHORS: Algkoyevenko, L. I. (Alekseyenko, L. 1.); Zhomnir, S. V.;
Chedzhemova, I. L.; Nosenko. A. Ye.i- Lymarenko U. M. (LlmarefnRo-64
L. M.); Pashkovsvkyy,-M. V (~a_~~hkovskiy' M. V.t
ORG: L'vov State University im. I. Franko (L'v1vstkyy derzbuniversytet
TITLE: Growth of zinc tungstate crystals and investigation'of their
optical properties -L-1
-2~1 , I q %- C-
SOURCE;, Ur~aylna'tkyy fizychnyy zhurnal, v. 10, no. 11, 1965, 1222-1226
TOPIC TAGS: optic spectrum, light absorption, lumine-scence spectrum,
uv spectrum, ir opectrum, zinc compoun,1 optic material, single crystal
I . _ I tfo '-'~
ABSTRPCT: Zinc tungstate qjp.&1e crya'tals(were grown> from the melt by
the CzocbralBki method. Tfie dryint,7110 ReTV gTI&M, tn a1r In platinum
crucibles using high-frequency heating. To provide the necessary tem-
perature for crystal growth and further annealing above the platinum
crucible a furnace with a nichrow heater was set up, making it possibli
to maintain a temperature of about 1000C. All crystals were annealed
and cooled at room temperature, at which all investigations were made.
The conditions were studied for obtaining crystals with chromium acti-
Card 1 2
L 13125-M
ACC NR& AP5028923
vator concentrations up to 2 at.% by adding Cr203 and Crc3. The
penetration of the activator and the stoichiometry of the crystals were
controlled by chemical analysis. The mosaicity angle increases on In-
creasing the activator concentration from 81 up to 10161 at a concen-
tration of 2 at.% . Optical absorption spectra were ob.tained in the
ultraviolet, visible, and near infrared. Luminescence spectra were
obtained in the visible. Orig. art. bas: 3 figures.
SUB CODE: 20/ SUM DATE: 21I)ec6V NR REF SOVS- 001/ OTH REF: 00-t
2 L2H
L 242o5-66 PBD/EWT(I)/EWT(m)/EEC(k)-2/T/PdP(t)/L"iP(k)'/k,-WA(h) lip(6) W3/
ACC NR1 AP6013077 JD/JG SOURCE CODE: UR/0048/66/030/004/0671/0674
AU'."HOR: Limarenko, L. N.; Nosenko, A. Ye.; Pashkovskiy, M. V.: Furtak. S. F. -f'!
ORG; none
TITLE: Effects of x irradiation ard heat treatment in different atmospheres on the
optical and luminescence properties of cadmium tnngstatg (Report, Fourteenth Confer-
ence on Luminescence held in Riga 16-23 Septem%lr 19651-,s,7
SOURCE: AN SSSR. Izvestiya. Seriya fizicheekaya, v. 30, no. 4, 1966, 671-674
TOPIC TAGS: laser optic material, cadmium compound, terbium, luminescence, crystal
phosphor, thermoluminescence
ABSTaACT: In view of the fact that most solid laser materials emit in the red and
infrared, it is of Interest to develop materials that emit in khe other parts of the
visible region. Among the rare earths that can form.visible radiation emitting cen-
ters-are terbium, europium, and dysprosium. The problem in forming new laser materials
consista in Incorporating theae desirable bons-Into-the lattice. In the present work
ZnW04 and CdW04 single crystals were grown from melts by the Czachralski technique;
reagent grade and spectroscopically pure raw materials were employed. The activator
was T1j with one-tenth off much lithium added to the batch to facilitate Incorporation of,
I
the Th. into the tungstate lattice. In some cases CaO was employed to "loosen" the latticr-1
Card 1/2
__L__2_4 ri-66
ACC NRo 'AP6013077
The V--st rmsltn were ObtAincd with tho CdWO4. The W'!?rr.
performed on plates cleaved from the single crystals parallel to the (010) planes. UV
st!nulated luminescence curves are presented for "Pure" and Tb-doped (1% Tb + 3% CaO)
CdWO4 spvc1mons; the doped specimens at liquid nitrogen temperature have a high double
peak at about $40 mg, whorcas the pure compound has a broad poak centered at about
500 mp. The x-ray stimulated spectra were also investigated; these indjoate that
different excitation mechanisms are involved. This is substantiated by the glow curves
(presented 14 a figure) recorded for doped crystals after UY and after,x-ra7 excitation
CdWO4.Tb3+ crystals grown In air were slightly smoky. X irradiation of cle3r orptals
at, room temperature resulted in light coloring, but no significant change of the photo-
luminescence. Annealing In oxygen led to bleaching, also with no significant change in
luminescence properties. Annealing in vacuum (1 hour at 70000 resulted In noticeable
darkening of the crystals and reduction of the luminescence Intensity by a factor of
~about three. The probable reasons for this are suggested. The changes in the
glow curves an a result of doping with 2b andiCa-are briefly described. Orige art. has
2 figures. 11 (15)
BUD CODR: 20/ SUEM DATjj.- nope/ ORIG OF: 001/ OM MM: 005/
ATD PRESS:
Card 2/2
NUSIM KO, B. m.
GubJ n, V. 1. and Hosenkop B. 34. %n the theor
y of tne ei
I
effect," Trudy Fiz,-Laklin, in-ta (Oad. nauk Uz-ek SSR), Vol. 11,
Issue 2, 1949# P. 45-49
SOt U-5241, 17 December 1953, (Letopis 'Zhurnal 'Rrkh StAtey, No. Z6, VIO)
NOS--mov B. M.
"Fluorescence nf Some Crystal Phosphors Due to the Action of rons of
Energies and Its Application to Some Problems of Electronics." Uzbek U, ~a~rkand,
1954. (RZhFiz, Jan 55)
Suarvey of Scientific and Technical Dissertations Defended at USSR Higher
Educational Institutions (12)
SO:-Sum. No. 556, 24 Jun 55
MOSOM,0.9., STAROWW5ZVS.1.g VOSZNESZKSKlr,, V.L.
OReaction, Depth of an Ionic Strom on aCrystal" Doklo AN Us Sag No
So 1954,P 9-14
A method of determining the penetration depth or an ionic stream
was suggested by using the properties of weakenes luninesconce in the crys-
tAUoph= layer deterioated by ionic penetration. Zn2S'o4 Ma was studied.
The initW behavior of luminescence curces under eleEtrod e=itatLon shown
that no sharp boundary of deterioration layer existse The relatioa of pene-
tration depth to ion energy is nearly linear and only slightly depends on
the type of ions. (RZhris, Mo, Up 1955)
E,(1 / dd holds, where d e is.the excitation depth and dd the
destruction depth* This is explained by the fact that any luminespence va-
niahes under sufficiently:long ion irradiation. Relmtion d - by~' is ob-
ad a
taine.d in an estimation of the depth of the camplatl crystal destruction.
In this relation, V is the ion energrg 4, in
ad Mg/cm , b and P being given
in Table 2. This relation exhibits an error of 5 - 30% anclis derived frolm
the threshold energy or cathodoluminescence. There are 2 tables and 6 re-
ferencest 3 Soviet-bloc and 3 non-Soviet-bloo. The 3 references to Eng-
lish. language publications read as followsc Young S.Roj J.Appl.Phys.t 319 X
1 (1956)9 roung, jappi i LS-,.524 (1958), Ehrenbere, W. et al., Proc.
ip"Iys;
Phys.Soco'.B.,60, 1059 1953
ASSOCIATIONt Karedra, optiki Tashkentakogo gas.* universiteta. im. V.I.
Lenina, (Department of Optics of Tashkent State University
imeni V.I. Lenin)
Card
20814
if S1048
,/61/025/003/002/047
.?Y,3COO (1137o,-11,391 13 fs-1 3104/3201-
AUTHORSt ReTzin# L.S.# Taskolkot T.U.p
&n& Krasnayat LOP*
TITLIs Thermoluminescence with different modes of excitation
PBRIODICALt Isvestiya Lkadezii nauk SSSR. Seriya fizicheakaya,
To 259 no- 31 19619 31 321
V -
TUTt This is a repradnotion of & lecture delivered at the "h Conference
on.. Duainescenao (Crystal Phosphors)# which -took plaaa in 1[ijav from June
20 to 259 1960. The authors used CaSO4-ft 0 pbso 4-gulp Zu2S'04 -Knq zns-A&
and W-Cu phos phors to find the light sum's of steady luzin*ocemce S at,
afterclow 11, and therzoluxinexc6ace S tj produced by electron excitetion
(V w 095 - 7 kove 10 -5 - lelo ~az bots, radiation (8351 40-500140
j * (VPV -
and photo-irradiation -2 (PRX.;; tube with filter). The specific
light sums rete T& and 3'th were also determined. Measurements were made
In the temperature range from -1800 to +30 00 at heating rates of 6000/min
card 1/7
20814
3/04BJ611025/005/002/047
Theraoluminoscence with B104/3201
and 150*0/ain. The excitation densities were intercompared on the basis
of the number of the excited ion pairs 3, produced per unit volume and per
unit time. The measurement results are discussed for every phosphor, se-
parately, C&SO 4-Kn has at 900C a main peak of thermoluminescencel mea-
sured values corresponding to this peak are listed in Table 1. Table 2
gives the depeadenoes of the specific light sums an temperature, PbSO _Kh
0 4
has one peak of thermoluminescence at 54 Cp the relative light suze being
equal under beta excitation and electron excitation# and about 2.5 times
as large as in the case of photoexoitation. On a temperature rise up to
room temperature# the relative light sum produced by beta excitation in-
creases by'the sixfold at the expezise of steady luxineacence. The spec-
trun has two bandeg'an orange band Iof manganese (A2- 615 ap), and a blue
band of PbSO 4 On- 425 m/4o L photoexcitation yields an orange lumines-
cence at all teaperaturesp and also an orange thermoluminescence. An elec-
tron excitation gives rise ta an orange luminescence at room temperature,
which turns blue on a temperature drop. Beta excitation produces a blue
luminescence with a small orange portion. Zn2sio 4-Ma has two peaks of
Cavd 2/7
20814
S/046/61/025/003/002/04T
Thermolumineseence with B104/B201
thermoluminescence: ~& complicated one at 880Ct and one at 75aC). ZnS-Cu
has a green band. and two paake of thermoluminesaenae (at -530C and 2200).
More details are given in'Table 3. ZnS-Ag has a complicated peak of ther-
molumineseenae, which can be separatal into two maxima: one at -105aC and
one at _640C. Uore data are given in Table 4. L fluorescence effect of the,
cathode rays-is observed on thin layers of the said phosphorf which are
practically transparent to the exciting light. The phosphor is ex6itad up
to saturation by an ultraviolet radiation with A- 365 m1t. The final part
of the paper deals with differences between excitation by corpugaular radi-
ation and by photons; it is stated in this connection, that a consideration
of excitation density and excitation depth Well explains the differences
observed. The'appearance of the fluorescence effect of the cathode rays is
explained by the fact that on an excitation of lumiaescence by electrons the
eldetric field produced by partEcle charges in the crystal leads to a flu-
orescence. There are 4 tables and 6 Soviet-bloc references.
ASSOCIATIONt Kafedra.optiki Tashkentskogo, gos. universiteta im. V. 1.
Le.1ina (Department of Optics of Tashkent State University
imeni V. I. Lenin)
Card 3/7
KRASNAYA, A.R.; KOSENKO, B.M.; REVZIN; L.S.; YASKOLKO,, V.Ya.
Exoslactronic emisalm cf CaSO Ma. and Caw4-ft phosphors.
Opt. L spektr. 7 no.4:526-52r Ap 062. (MIRA 15:5)
(Electrons-Wasicn) (Phosphors)
37224
S/051/62/012/004/012/015
em/s485
AUTHORS: Krasnaya, A.R.. Nosa !"k~ Revzin, L.S.,
Yaskolko' V.Ya.
TITLE: On the exoelectronic emission of the phosphors
CaSO4, CaS04 -Mn, CaS04- SM
PERIODICAL: Optika i spektroskopiya, v.12, no.4, 1962, 526-528
TEXT: Earlier work on'this if4bject is reviewed and the results
shown to lack agreement. An investigation of the exoemission of
the phosphors CaS01k, CaS04-1-lrx and CaSOi*-Sai was therefore
undertaken. The apparatus used and method of measurement are
described briefly. The phosphors were excited'by a Sr90
P source,and the results are shown graphically; exoemission
plotted against temperature for each phosphor. Theexoemission
for CaS04 -Mn has two peaks with maxima at 100 and 144*C, while
the thermo-luminesconce curve shows only one peak. CaS04 has
only one peak on its exoemisslon curve with a maximum at 1340C.
When Mn is added, new capture contras are formed and the general
intensity of emission is increased. In the case of CaSO4- Sm
exoemission is not observed while its thernioluminescence curve
Card 1/~
s/o5l/62/012/004/012/015
On the exoolectronic ... 2039/E485
shows three peaks. This shows that exoemission from C4S04 is
strongly influenced by the activator and that there is no
correspondence between thermoluminesconce and exoemission. The
difference between these results and those of earlier workers
appears.to be due to differences in the method of preparation of
the phosphors. The results are compared with a model suggested
by,A. Begun and it is shown that the absence of a second peak in
th4 thermol-aminescence curve for CaS01, -Mn can only be explained on
the bas'is of the temperature of quenching (luminescence). In
CaS04- Mn this occurs at 200*C. The full suppression of
exoemission by Sm requires the assumption of pure hole
characteristics for the luminescence of CaS04 -Sm on this model
which is contrary to the results obtained. The effect of
ele--tron diffusion length is also discussed. It is concluded
that exoemission is due mainly to defects in the non-luminescent
surface layers while the thermoluminescence is due to defects in
tht volume of the crystal. Further experiments are required for
the verification of these results. It is suggested that the
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s/o5l/62/012/oo4/012/015
On the exoelectronic ...' E039/E485
method is a valuable oho for the study of the surface layers
of crystals. There is I figure.
SUBMITTED: September 26, 1961
-r
V
Card 3/3
ORWVO B.M.; MOSENFO, B.M.
Discussian of V.L.Lavaunts report. lzT. AN S=. Ser. fiz. 26
no.4:45&459 Ap '62. (Quantum.theory) (Phosphors) (KMA 15:4)
AYVAZOVAf A.A.; MOSENKOO B.M.
. ," . .,
. Melactric losses In 6~nzane .and paradichlorobanzens. lfgLwh. tra4y
Tashau no.221. Fiz. nauki no.2103-60 f63. (KM 17W
-- -- - ----- ------
IAccEssrom aRt AR4022450 8/0058/64/000/001/ZOOS/EOOS
SOURCEr M, Fizikat Abse 1B72
AUTHOR: Ayvazovar A. A.r. Derilgina, S.. V.t Kosenko, B. K.'
TITLE: Orientatibn order in*para-dichloro-benzene near the crya-
tallization point
czTED souRczz bTauchn. tr. Tashkentsk. un-t, vy*p. 221, 1963, 61-64
TWIC TAGS: paradichlorobenzene, orientation order, crystalliza-
tion point, scattered light.depolarization, molecule orientation,
jprecrystallization region, depolarization temperatura dependence
TRANSLATION: The temperature-dependence of the degree of depolari-
zati on of scattered light in n-CH4~12 is investigated. It is found
~that an anomalously steep temperature dependence occurs in the pre-
-.av"tallization region (53~60C), t',ie; being attributed to the change i~ the mutual
orie on of the moleculbs,