SCIENTIFIC ABSTRACT ZHOLKEVICH, G.A. - ZHOLNEROVICH, B.G.
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CIA-RDP86-00513R002064910004-5
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S
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December 31, 1967
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SCIENTIFIC ABSTRACT
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$1625
S/181/60/002/06/13/050
B122/BO63
AUTHORs Zholkevich, G. A.
Y~
TITLE3 Optical band Photoelectric Properties?of Zinc Selenide and
Telluride
PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 6, pp. 1115 1117
TEXT: The article under review describes the following experiments A
layer of zinc is sputtered onto a quartz backingt and the zinc foils were
added to the corresponding quantities of Se and Te, and subjected to
6000C in sealed ampoules. The thickness of the specimens ranged from 0.2 p
to some microns. Absorption spectra of the specimens were taken by means
of an CJ-2M (SF-2M) spectrometer at room temperature and 770K (Fi~~ 1).
The bands of ZnSe shifted by 0.7 A/deg and those of ZnTe by 0.9 A ag,
depending on the temperature. Dark resistance and photosensitivity were
observed according to the conditions of crystallization for the preparation
of the layer. Examination of the spectral distribution of the photocurrent
showed that the photoconductivity of ZnSe was independent of its content
.of excess Be and other impurities. The peak at 460 m~i is related to the
Card 1/2
81625
Optical and Photoelectric Propertieii of 8/181/60/002/06/13/050
Zinc Selenide and Telluride 2122/BO63
absorption edge. In the long-wave region, however, there was a relation-
ship between photoconductivity and the content of Se which formed new
centers of photoconductivity. Similar but less marked effects were observ-
ed In the case of ZnTei.Experiments with specimens doped with Hg or~Cd in-,
dicated that Hg and Cd penetrated into the lattice where they formed in-
clusions and intermediate layers. Electron diffraction pictures of these
specimens showed two structures: Besidas We and ZnTe, respectively, there
were.also HgSe, CdSe, and/or HgTe and Offe. There are 2 figures and 4 ref-
eren6es: 3 Soviet.
ASSOCIATIONs Vologodskiy gosudarstvennyy pedagogicheskiy institut
(Vologoda state Peaagogical Institute)
SUBMITTED: July 13, 1959
Card 2/2
S/161/60/002/010/021/051
7 7 B019/BO56
AUTHOR- Zholkoviah, G. -A.
TITLE; The Problem of the Mechanism of Negative Photoconductivity
PERIODICAL: Fizika tverdogo tela, 1960s Vol. 2) No. 10P pp 2480-2483
TEXT: The exact production of polycryetalline zinc-selenidKmples with
I
negative ph otoeffeotWs described elsewhere by the authors (Refs. 7,8)*
The samples had t-Sei-shape of a photoresistor with a 0-5 - 1 cm electrode
gap. The adsorption on the surface was found to affect the negative
photoconductivity. The effect of oxygen was the most marked. After
evacuation of oxygen, the conductivity of the sample and the negative
photoconductivity were found to increase. In Pig. 1 the spectral
distributions of tho-negativr and thei "normal" photoconductivities of
ZnSe are graphically represented. In the case of the existence of oz
electric field ZnSe is graphically represented. In the presence of an
electric field of some ton volts, an increase of the negative
photoconductivity is observed. The fact that the spectral distributions
Card 1/2
8h598
The Problem of the Mechanism of Negative 8/181/60/002/010/021/051
Pliotoconductiv,ity B010056
of the negative photoeffect and the photo-emf are very similar to each
other Is examined more closely. Attention is drawn especially to the
fact that,the more similar are the metbod of producing the photocell and
the photoresistor, the larger is:the similarity of the spectral
distributions. Further, in comparison to the ordinary photoconductivity,
the two effects mentioned are characterized by shorter times of growth
and decayp and by the lack of the decisive part played by the electrons
in the formation of this effect. From the discussion of the results
obtained here, which the author carried out or, the basis of the energy
band scheme shown in Fig- 3, it follows that the increase of the
resistance in the polycrystalline layer during illumination is possible
if.in the n-type semiconductor photoeleotrons are produced.,During their
recombinationj they increase the height of the interarystalline contact
barrier. There are 3 figures and 8 references: 7 Soviet and I US.
ASSOCIATION:- Vologodskiy gosudarstvennyy pedagogicheskiy institut
(Vologda State Pedagogical Institute)
SU13MITTED: July 13~ 1959 (initially), January 9, 1960 (after revision)
Card 2/2-
j%WYA J#W
MWE CODE: "/cop-0/65/if.5/or,4/(-)7W/o785
AUTHOR: Gol,~Mnj A. 0. (Academiclan AN IrkrSSR); Zholkevich, G. A. i Lazar' N. P.
ORG. Institute of ftsics, Ac r of Sciences fi:, * kt A)qLdeml Jj
UkXSSR)
TITLE: Stimulated currents and eleetroluminescence in iiublimated zinc sulflie films
at.
SCURCEt AN SSSR. Doklady,, v. 1.65P no. 4p 19E5, 786-789
110PIC TAGS: zinc sulfide, electroluminescence, thin film circuit, volt ampere 011~-
1
acteristicp electric conductivity, uv irradiation
ABSTRACT: This is a continuation of earlier work by the authors (DU, V. 159, no. 1,
43, 1964) dealing with electroluminescent slit cel-la with sublimated 7-Inc-roLlfide
ce.lls. The present exticle reports briefl,), tests of these ce-11.9 at -7X, obtained by
aIrplyin a de voltage (from 100 to 2'M Y) and mearur',rig the photohim !ie-qcoi-o-e with ri
photomultiplier. The alit call cc)niiists ni' Fi t~Lbllnuitecd 7n~*, filiii on a ~Ikr-F sub-
strate. The results showed that when the vj11,r:Lge is raised t - a m3ue, the
cel-I becomes a negative resistance. Reducti~)n of the v,1-14,age affer Fnt:g thraugh the
critical value establishes a new state of the cell with atimulated c-D,11ictivity, whic
in some cases exceple the conductivity at room. temperature by a ftctrr or 90. The
stimulated state is stable over a 1c% time and its volt-ampere ebaracteristic in re-
versible. The otimulated state can also be established try prelin1naxy- ultraviolet
1/2
1UtC:__539-R93__: 535-376.2
NRt
irradiation of the cell at 77K. It can be! eliminated by heating and re-established
by one of the indicated methods. In the E;tirnulated state, as in the. normal state,
the current Is proportional to approximatf-ly the sp,venth OT' eighth :)O-Wer of the
voltage. The electroluminescence brightrifiss in stt:nulated ctat'9.13 i-iCree.1;eq MOr-E-
rapid],y than Linearly with ciirrant, be4nK ~:r;, ort !,:)ra i tic, rn~D,3+i tn-~ E-qiarL! hf-
current. The brightness obtained 'In I hp !4-' ju j& ! r~-! -1 F man:j ' ~ -T-,s !-rirk7er har,
8t room temperature, The ex-per'-,mf,n4.a*L rr-11's PIr. IF) ;.ID- ~!Crt'3"' "'h'-, ke
the results obtained by C. W. Litton and 7. lievnoLds (Fhvs. ~e-;. Dc.
516, 1962 and v. 1.33, no. 2A, A 536, 191b4i) for US, the luin~nescence wts -b-ain-d in
both unstimulated and stimulated state, a:nd the volt-ampere chn-racte-ristics are re-
versible in the present experiment.. Orig. art. hais.- 1-6 1*1gi;rer,.
SUB CCDE- 20/ sumB DATE: ogAm65/ WIG REF: 001,' OTH REF: 005
2/2
t Tr
V A
AM013058.
ACC Nki 90UME =81 U21004G/66/030~0593/0598
P.
N. P.
1AUTHOR: Gol'dmant A- G-; 22ta1kqxAqbr_;,Q.
'ORGI: None
ITITLE: Inventigation of the eleotrolun tscenge of aublimmted films rKeport, Four-
teent,h Conferenco on Luminescence hold in aiga]16-23 S ptember 19657
;SOURCE: AN SSSR. Izvestlys. Serlya fizicheskaye, v. 30, no. 4, 1966, 593-698
i I
TOPIC TAGS: electroluninescence, electrio conductivity, phosphor film, zinc sulfide
ABSTRACT: The paper gives the results of further invrastigation of oublinated
copper-totivated zinc sulfide-films described by the authors earlier (Doklady AN SSSR,
159, No. 1, 48, 1964) and used for the preparation of alit type electroluminescent
Icells. The basic preparatio proce4ure was developed by G.A.Zholluevich and V.P.Dudnik.1
10-3
The initial material was cWerNith about g/g Cu. Sublimation frcm the cru-
cible in a quartz tube began at 850-9000C and was continued for L to 2 hours , dependinir
on the film thickness desired; in the process the furnace temperature rose to 1100-
1200,-. Sublimates with blue emission werfx deposited La the 150 to 3000 zone with any
,orientation of the substrate relative to the crucible. Condensation oaourred not from
,a molecular beam, but from a "gaseous cloiid" of app~-Gciible density, to that &ll angles
!of irr.,idence were equally probable. The operating vacutm was 1OZ4_10-5 mm Hg. The
land it is noted that It can be used lick on:Ly for alit type colla but alec- for calls -of
~Jthe sandwich type. Blectroluminsacence winh a brightness of up to 30 n1- could be
satisfactorily or-cited by either so or do. The ealasi,-#n peak is located at about
475 m~A. In the case of alit type' coUs with an 1nterelectrode gap eweading I = the
electrol=inescence Is uniformly d1stributild over the Interelectrode apace. The brl&t~,
ness B is characterized by B a DOVD, where V Is the voltage and n is sin exponent that
varies from 9 to 12 for the sandwich type cells end fron 12 to 14 for the alit type.
I
In fields stronger than 10 4 V/cm, the variatlcu at brightness with the current is given
1by B - CIM, where m is about 2: in weaker fields tLe values of m vary In the range fron
i4 to 9. The sublimated film in the fovm of alit type calls with altoLnum electrodes
'(gap about I an) were inve3t4gated at 770 K in fields of up to 20 W/am. A number of
'interasting facts were observed: upon increase of the voltage to a critical value the
Icell becomes a negative resistance; after going thrcugh the crit!cal voltage the new
-4state-wit"tiattlat . . . . . . .t (the value 0: thla nay W_ as high as 50 times the
rl~ vers 0
rradi
J_ I L 0 E W-
stimlated 'SititO can bet estroyed Whba-ting andres-testablished by-eltheir_~f
mentioned two procedures; In the stimulatcd state, As In the ordinary" state, the
current is proportional to the voltage to the 7-th or 8-th po4mr; t1to brightness de-
pendence In the stimulated state, as in the ordinary state, is proportional to the
current to approximately the seccrnd power; owing to the high current values realiz-
2/3
NRI AP6013058
'ACC
Ible
able In the stimulated state Inthis state it Is feasible to obtain brightnesses an
o
rde
Order of magnitude-higher tha.n.. In the ordinary state. The authors also.pre
pared Cd19
F
films 20-30 microns thick by vacuum sublimation onto conlucting glaaB substrates heat-
ed to 350 to 450c, these were then drifted with galliun to obtain n-type films with a
resistivity of lj-103 oh,
cm. The _Q
4S films re further coated (also by vacuum
evaporation) with zinc tell urtd"ove~vtlilver and the combined film waa annealed
for 5-10 min at 5200 to induce orde;ing!\ These double layer films also exhibited
Ta.
bright luminescence; the electroltaine once at liquld nitrogen temper%ture with tha
so
voltage in the "conducting' direction attained 10-15 nit, wheroas with the voltage I
in the "blocking" direction the brightness was about an order of magnitude lower.
Both the current and the voltage appear to be varying power functions of the voltag".
Orig. art. has: 5 figures.
SO CODE: 20/ SUEU DATE: GO/ ORIG IW: 002/ Ont REP: 005
Card 3/3
t-j. 31426-66 EWT(m)/D_Pjt,)/ET L. IJP(c) JD
ACC IM: Ar6013025 SOURCE CODE: upfto5i/66/o2o/W~/M78/084
ATUMOR: Zholkevich As; Dudnik~ V. P..
ORG4. none
TITLE: Production and properties of blue-glow ZnS-Cu sublimate electroluminors
S01URCE: 0
ptika i spektroskopiya, v. 20.. no. 40 :L966, 678-6814
TOPIC TAGS: zinc compound optic materialp luminorp vacuum sublimation, 3-ight
excitation, optic brightness, volt ampere characteristic
ABSTRACT: The authors desc b!, #Angle-step method of obtaining a blue-glow
Ae
liminor by sublimation fromlnSZCO~owder (brand FK-io6). The sublimation was in
a quartz tube 55 = in diame-ter-Zd 60 cm long (Fig. 1) in a vacuum 10-4-10-5 mm
HG,. The preparation of the samples fo:r optical investigations is briefly de-
scribed. The method offers good reproducibility and elimination of undesirable
impurities through the use of relatively low temperature. Excitation of the
luminor with a de and ac field 2-5 X 20 V/cm yielded a blue glow throughout the
luminor with a brightness of 30 nit and a spectral maximum near 475 nm. The
brightness increased with the voltage much more steeply than the current. Micro-
scopic observations have shown that the electroluminescence occurs through the
entire volume of the sublimate. When excited with ac, the brightness was produced.
Card UDC 535-376
Card
L 081&-67 -EWT(l) XJPW AT
ACC N' AP6033525 SOURCE COD19.; UR/0185/66 /011/010/1114/ 1 Ill
AUTHOR: Hoj1dMan. 0. -_-j0Q1dMw..A,.Q,;Zho1keVjch. 11, 0,-- ~Z
H.
Zholkevtch, G. A. ; Lazart P*
ORG: Institute of Physics, AN URSR, Kiev (Instytut fizyky AN URSR)
TITLZ: Electrolumincl/cence of ZhS crystals and.electro _emission in vacuum
SOURCE: Ukrayins1kyy Rzychnyy zhurnal, v. 11, no. 10, .1966, 1114-1117
TOPIC TAGS: electroluminescence, electron emission, zinc sulfide, vacuum
-ABSTRACT: A description to given of the conditions of formation, existence, and
quenching of thb-electron emission in vacuum and of associated electrolumines-
cence of the ZnS crystals.. Orig. art.'has: 5 figures. (Based on authors'
.abstract)
,SUB CODE; 20/ SUBM DATE: WuMS/ ORIG REF: 001/ OTH REF: 0031
9-- R~/002U[66'1171'/003/0555-/0558--~
ACC NRi_k70di544- SOURCE 60 . U
Lazar', N. P.
AUTHOR: Gol'dman, A. G. (Academician AN UkrSSR);_~hq~k
ORG: Physics Institute, Academy of Sciences UkrSSR (Institut fiziki Akademii nauk
UkrSSR)
TITLE: Negative resistance and a stimulated condition in electroluminescent zinc
sulfide films at 77K
SOURCE: AN SSSR. Doklady, v..171,,no. 3, 1966,555-558
TOPIC TAGS: photoluminescence, zinc sulfide, electric measurement
C,,-d
ABSTRACT: The excited~state of electraluminescent zinc sulfide films was studied
at a temperature of 77K. This excited state was established either by ultraviolet
irradiation or by application of electrical, fields. The luminescence of the excited
state was measured with the electroluminescent circuit placed in a liquid nitrogen
cryostat. An FEU-17 photomultiplier connected either to an M-95. galvanometer or to
an EPPV-60 automatic recorder was used to perform the measurements. The spectral
measurements were made with an SF-4 spectrophotometer. The spectra of the excited
and non-excited states practically coincided; the maximum was located.at 465 mp and
the halfband width was 76 mu. A toore accui-ate determination of the stimulated state
was made, and the possible effects of redistributing the -)ltage between the lumino-
phor and the pre-electrode regiona was eliminated by measuring the potential drop
'2 UI)C: 535.376+535.377+537.226.8
ACC NRt AP7001544
across the luminophor with probes. The electroluminescent film was made by deposirlag
a layer of zinc sulfide 20-30 V thick on glass; aluminum electrodes were vacuum
deposited on the film. Measuring probes, inade from tungsten wires 0.2 Mm thick,
were embedded in the film at a depth of n,10 V. The excited state was established by
applying a critical voltage (428--640 v fov electrodes placed 0.72 = apart) across
the electrodes. Ultraviolet,irradiation as well as the critical voltage created a
stable excited state that exhibited a several-fold rise in conductivity (at currents
from 3 x 10-9 to 65 x 10-6 amp for probes placed 0.27.mm apart) and in electro-
luminescent brightness. The volt-ampere characteristics were identical and the
thermoluminescence had equal peaks for both methods of.excitation. Orig. art. has.,
4 figures.
SUB CODE: 201 SUBM DATE., 26Apr66/ ORIG REF: 002/, OTH REFs 005/
ATD PRESS: 5110
Cord 2/2
wwwA...
Ac,'Essio~., wz- AP404,174~1
I SUIMTMt- 02,TtL-n64 EN tit 02
SUP CODE. OP ~m R-IT --
!
1, -, I I
1-4 .,
1.1 ..
i, ,:
ZHOLKEVICHp G.A.
Negative photoconductivity, Uchozap.Ped.,inst.Gorts.no.2079105-112
161,
MIM 1685)
1. V91ogorskiy gosuderstvonnyy podagogicbeekiy instituto
(Photoconductivity)
`7' T
.4'
ZHOLKEVICHf-GIA,
Photoelectric proportion of films of siuo nlenid* produced I#
wiaporm,tioa In a vacuum,.Uch,zop.Ped.inst.Gorts.noo2O7t250-251
f6le
(MML 16t5)
11 Volosodskiv gosudarstvexvyy podaLgogichookiy institut.
4alta 47kinids) (Photoolootricity)
ZHOLKEVICH, G.Aa.
Optical and photoeleretric properties of zinc selenide and tellurlde,
Uch.z,ap.Ped.inst.Gerte,no,207s251-252 161.
(MICA 16c.5)
I.. Vologodakiy gosudaretvennyy pedagogicheskiy institut,
(Zinc aelenide-Dptical properties~ (Zinc telluride--Optical properties).
(Photoelectricity),
S/194/17-2/000/008/048/100
D295/D308
AU THIOR;
ITITL3: Photoelectric properties of layers of zinc selenide
obtained by evaporation in vacuum
PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektrMliha,
no. 8, 1962, abotrdct 8-4-8 a (LIch. sap. leni-,.Er. gos.
pod. in-ta im. A.I. Gortsena,, no. 207, 1961p 250-251)
TEZT: The properties of highly photo-sensitive Itayers of zinc so-
l6nide obtained by evaporating the compound in high vacuum Pro
briefly described. The resistivity of the -layers,amounts to 101
...1012 (4.x cm. By illuminating with light of~ 100 lux the conductivity
of the layers increases approximately 100 times. [Abstracter's-note:
Comp3Ae translation.
:'Card 1/1
hiOL14
S/058/62/000/009/027/069
A006/A101
qi4o
AUTHOR: Zholkevich, 0. A.
TITLE: Negative p~oto-conductivity
PERIODICAL: Referativnyy zhurnal, Fizika, no. 9, 1962, 34, abstract 9E245
ClUch. zap. Leningr. gosi ped. in-ta,im.,A. I. Gertsena",-1961,,
V. 207, 105 - 112)
'TEXT: A method is described of obtaining ZnSe layers by means of direct V
Zn and 3e interaction. This method makes it possible-to produce layers which
show nfgative photo-conductivity. Measurements were made of the spectral distri-
bution of positive and negative photo-conductivityand,of ~hoto-emf. Spectral
sensitivity ranges for all the three effects are equal , but.sensitivity maxima
of negative photo-conductivity and photo-emf are shifted to a shorter wavefength
range-as compared. with the sensitivity maximum of positive photo-conductivity.
-The effect of the electric field and surface gas adsorption upon negative photo-
conductivity was studied. A parallelism is noted between characteristics of
negative'photo-conductivity and photo-emf. A mechanism is suggested which ex-
Card 1/2
S/058/6Z/000/009/027/069
Negative photo-conductivity A006/A101
plains the revealed peculiarities of negative photo-conductivity. It is sup-
posed that under definite conditions of obtaining ZnSe layers, intercrystalline
barriers may play a decisive part in photo-electric phenomena. Photo-carriers,
recombining on the crystal surfaces, change the energy height of the barrier and
consequently the magnitude of the layer oonductivity.
V. Sidorov
(Abstracter's note: Complete translation]
Card 2/2
S/058/62/000/009/025/069
A006/A101
AUTHOR: Zholkevich,.Go A.
TITLE., Photo-electric properties of zinc selenide layers obtained by eva-
poration ih a vacuum
PERIODICAL: Referativnyy zhurnal, Fizika, no. 9,-19Q, 311, abstract 9E242
C'Uch. zap. Leningr, gos. pqd. in-ta im. A. 1. Gertsena", 1961,'
v. 207, 250 - 251)
T~Xn The author investtgated optical-absorption, photoconductivity, the
effect of impurities, and the dependence of dark current and photocurrent upon
the magnitude of,a field applied In amorphous ZnSe.layersj'which had been ob-
tained by evaporation in a deep vacuum and had a resistance.of up to 1011 _ 1012
ohm-cm. To explain the'peculiarities revealed, it is assumed that there is's
great number of non-deep energy states through which the current carriers move
in a to relay" way. It is shown that a series of selenide,film properties are af-
fected by internal polarization of the layers; a mechanism of such Internal po-
larizatidn of layers is propoijed. The author notes the great resemblance of the
Card 1/2
41co
8/058/62/~000/009/026/069
A006/A101
AUTHOR: Zholkevich, G. A.
TITLE: Optical and phot6'--electric,properties of zinc selenide and telluride,
PERIODICAL: Referativnyy zhurnal, Fizika, no. 9, 1962, 34, abstract 9E243
ClUch. zap. LeniM;r. goo: ped. in-ta'im. 'A. I. Gertsend", 1961,
v. 207, 251 - 252Y
~M: A method is propoiled for obtaining pure and well-crystallized ZnSe
and ZnTe layers. Spectral funations of the absorption-coefficient and photo-
conductivity of the layers were measured; 'the width of forbidden bands was de-
termined (zn3,.- - L>.66 and ZnTe - 2.26 ev), The temperature courne of dark cur-
rent and photocurrent in the le.yers corresponds to lower thermal activation.oner-
gies than the width of theforbidden-band. In ZnTe, infrared luminescence was
revealed; its maximum of intertsity at 900K is located near 1. 14 IA. It is as-
'sumed that the luminescence is "nelf-activated" by excessive amount of Te. The
effect ok alloying the specimeris with a number of admixtures was Investigated.
In alloying with Hg and Cd the specimens show higher photo-sensitivity, extend-
ing up to 1 - 1.3 A- V..Sidorov
Abstracter's note: Complete translation]
krd 1/1
ZHOL-KEVICH) v. x.
ZHOLIKEVICH, V. N. "Fkv--iological Stud;( of the ~:n~ction of
Mernophilic and Cold-ResintantTlimts to Lo-~,, Tem-ei,,-tures Above GOCC.I!
Sub 31 Dee 52, Inst of Plant Physiclory iricni K. A. Timiryazev. Acad
Sci USSR. (Dissertation for the begree of Cmdidate in Bioloi-ical
Sciences.)
SO:. Vechernay.1 M-,~skva Januar/-December 10,152
MOLOVICH, V.N.
Study of cenular physiological changes during the action of
growth promoting cubstances on call growth In the dilation phase.
Trudy Inst.fiziol.rast. 8 no.2:215-228 151+- (HLPA 8:5)
1. Moskovskiy gosudaretrennyy universitst im. H.V.Lomonosova.
(Growth promotirg substances) (Plant calls and tienues)
-1 T
ZHOLKZVICH,V.N.
Effect of irrigation on the metabolism of spring wheat im
relation to yield. Fiziol.rast.2 -no.2:123-131 Kr-4p'55-
(MIRA 8:10)
1. Institut fisiologii rasteniy imeni K.A.Tiviryazova Aka-
demii,uauk SSSRO Moscow
(Wheat--Water.requiremouts) (Plants--Metabolism)
V A/,
nTINOT, I.S., professor, ddktor biologicheekikh nauk, otvatetyannyy redaktor;
relaktor isdatelletva; SHEYCHMO, G.R., takhaicho..
skiy reda-k--Vbk--
[Biologioil principles of Irrigation farming) Bioiogicheskis oenovy
oroshaemogo zemledall1a; abor-ailc statei. Moskva, 1957. 711 P.
(KLRA 10i8)
1. Akademiya usuk MR. Inatitut fisiologii rastenit.
(Irrigation farming)
UUUNTIa t Ti-H
CATEGORY t Plant Physiolopy. Respiration and Metabolism. I
ABS. JOUA.
.
t RZhBioli, Ifin 1; 1959, M4, 24496
AUTHOR Zholkevioh V. I.
INS T. -- "Oemy of Scienceaq USSR
TITLE i Charaotariatios of Plant Vetibilism Under
Different Cona itions of Water -Supply.
ORIG. PUB. % Biol. osnovi. orosbayam. zemledo, 1957, 519-535
JABSTRACT t The rate of respiratl9n, tranalocation rate of
assimilates from the leaf to the ear, activity of
certain enzymes and carbohydrate content of
irrigated and non-irrigated wheat were studied
in conditions of Zavolohlye (Saratovskaya oblant).
1
4
1
In the non-irrigated wheat, assimilation of C
o2
was reduced and the translocatkat ct "simila from
the leaf to the ear was slowed dovm. In the le-P-ves
of irrigated whea~f before the start of flowering
1/3
COMITRY
CATEGORT
BS. JOUR, RZhBiol.; No, 6 1959j, No. 24496
i AUTHOR
! INST.
TITLE
MG. PUB. t
TRACT Sacoharose was synthesized more intensivelv than
in the non-irrigate& wheat; then the rate of
synthesis was gradually redijoad to 7sero, and the
rate of hydrolysis increased. In conditions of
droughts the beginn1ng of flowering gave rise to
an outburst of synthetic Aotivityp preoecling the
dying of f of -the leaf. In the leavea of non-
irrigate& whoat~ the content of soluble carbo-
hydrates (saccharoses and fructosans) not used by
the plant and the intensity of respiration vere
2/3
CATEGORY
ABS, JOVA* r ItZhfta.., No. 6 1959j. 14o. 24496
AUTHOR
INST,
TITLE
ORIG. PUB.
ABSTRACT 3i hig,her 'than in irrigated wheat. Hencey the energy,
liberated. during respiration vras used. inefficiently
and aid not contributiD to an inoreaze of biosynthessa. I
It in asnume& -that thin is connecta4 with the brealdng'
of the chain of ATF convernionz which serves as a
carrier of energy. Thusq reduction of harvests
during drought is a reatilt of disrupted coordlnatioh
W-wn tha -P-fiawtj d various -physiological processes
in the leaf apparatus and in the plant ae a.whoje.
Bibliography of 80 ti-tlen. --Yu. L. Teellniker.
CAIRD- 3/3
pal ZHOIKEVIOR. Vol.; PRUSMTAq L.D.; LIUJMRv AtAs
Trauslocatiou of assimilates and reapiratton of conductiog tinews
as affooted by moll'soisture C~dth vammX7 in lk~gllahl, 7isiol,
at, 5 no'4 337-344 Jl.,Ag 158'
ra
Is' InAitut fisiolagii rastoniy Timiryaze-m AN SSSR.
XOOkm.'
(Soil moisture) (-F-La~ta" Notion of fluids In) (Plants-ReffpIration)
AUTHOR: Zholkevich, 11.1i.
SOV/20-121-r-41!45
TITLE:,,.~~~thei=tib "Be tween'Re spire tion Tritensity and the Conten
Phbsph6rylized Compounds During Drought (0 sootnoshenii mezhdu
intensivno!-tyu d7khanive i soderzhenivem foeforilirovenn7ikh
soyedineniy pri zesukhe)
PERIODICAL: Dokledy-Akedoinii nauk SSSR, 1958, Vol 121, Nr E, pp 1093 - 1096
(USSR)
ABSTRACT: In conn6atidu with the investigation of metabolism due to water
supply'of plahts the author recognized that in the case of
dr6ught a'reilvtively intensive respiration on the one hand does
dnder,'-6e.rtiiii bonditioris'not-'oorrebpond to the intensity of the
phys.i.61o'gical proiceisiseu whi6h8re closely connected with respire-
ti6n on-tfi6 other hand (Refs"1-3). The
&O-ift-ki'd of th6-~rociisbes of'biosynth6sis, the
daiaji 6f-tFe ~iot6~19vmfstrdotfir_e' as *ell -as the slowed down
muit8-b6liip'in-the'd6ib'6f int4fiiiie'respiretioa lead to the con-
61iiii6ii-t1iit the76xiditiVe ree6tions are partly eliminated
fr6ifi"the"wholb fn6tabollsm-end that'-the respiratory metabolism is
dist6ib4d."AniloK46 phbfi6mefie are'albo'known under the influenco
Card 1/4 of other unfavorable factors (Refs 5 -17). A possibility of an
Ofi the" 'Re tio* B4tiieiifi Respiration lfitenait~ and thi SOV/20-121-05441/45
Content of Phosphorylized.Compounds..During Drought
'.1idl6!I*ieapiretion-wais proved and iAi this connedtion it was talk-
ed~*a'b-o'ut.1's'e-i~6bic-sii'fi~o8e-tioii"-(Refs 18-20).'Foir 8 years the
8"4thoi 66rrio~d'6uf in*6atigetions 6A the above mentioned problem
with' 6u' 6ar-~iet','^-wheei;,-cdcumber'sncI pumpkizi. Apart from an in-
hibition-6f erdwth a-readoe-d content of'phosphorylated subatences
6f"Ithe' said-soluble fraction (Tible 2) coriesponded to a more in-
tens-ive,respirstion- of' the*plents. Of course elso photosynthetio
ph6sphoiy16tion haito take 6 certaifi p1966 in the maintetiFnee of
th6 bilinc6 of 'the96 substan'ces. A's we kfiow this phoWlIorl"'Lation
decrbisis In the ce se'- of 'drought of the soil ( Ref 29). 1'1~ieDend-
4' n
efillrom-the 6rigin -6f the-phos'ph6ri,lated 6ubstances th ft al
effeat -of 'th-e'tr be-laiiai was'lees-9'6od- Thuo- in the case of
drought h dior~a-iiiten-dive-*r66p'irstion took place under a reluced
supply *brthe compoundb whi6h hav6 a leading part in energetic
metabolism; For 9--physiological. evaluation of-this phe-nomenor the
tollowin--fiot"heye to'be k6pt-Az inifids
9 1. The reduction of the
content of glucose phoapb6ric`ethe:r wp-s, ifi''the investigptions
aprAe'd out by' T, plwplys' Pc66mp.9fiiad'b, 'n v6rv
t tn (oft
Card 2/ 4 considerable) accumulation of monosaoche'~ .t'4des. This rat-i6o may,
-i the-,Ratio Between Respirsti6n Intensity and the SOV/20-121-6-41/45
Content of Phosphory~lized Compounds During Drought
ref6r to a redut;tion of'barbohydrate phosphorus metabolism
(W 27) . 2. Und6r-optimum cohdition6 of weter supply young,
#bwifik--le&iie'd iuivea the-most int6nsive respiration. At the
66ifie'tlfhe thoy 6)ntiined the highe6t amount of organophosphorous
bubstan6es of thi) acid-edluble fraction. With growing age this
amoufit-'wes' steadily- redu-ced (Table 2, Fig 1). In the case of
&r6dght the^contint of thoiphorylited subst6nces decreased,
~aitiddlarly in the'gi6win~ l6avei. All these facts and con-
iia6rati6fi6-19-kb_i.n-fa*or of thi'Fissumption that'in the case of
ioil _H&ight the 6xiditile - reactions and - the processes of' ac-
EUM-618tidn ~fid_triin'sformationi of the'~roduced energy are not so
016 sely"rel6ted'.' thit meeno in this connection the effect of re-
spir~ti6n is reduced. There ere 1 figure, 2 tables, Pnd 29 re-
ferences, 26 of which.are Soviet.
ASSOCIATION: Institu-t-Iiz 16,091, Timiryezeve Akedemii neuk
SSSR (Institute of Plant Ph7siology imeni K.A. Timiryozev, AS
USSR)
Card 3/4
ZBDIMMOH, V.N.; KORITUITA. T.T.
Metabolism of pumilin roots in dry $oil. Fiziol.rast. 6 no.6:
686-698 N.-D '59. (MIHA 13:4)
1. K.A.Timiriazav Institute of Plant Physiolog3r, ty.5.5.R. Academy
of Sciences.
(Plants liffect of stridity on)
(Roots iBoi;any)) ism)
(PlantB--Mt)tabo1
ZHOLKIVICHO V.N.
Beosion devoted to Professor D.A.Sabininla 70th birthday@
Pislo1srast, 7 n.o,3:381 160* (MIU 13 6
Dmitrii Amtollevicho, 1890-
wtu.
MOLKEVIGHP V. H. KHOLUM, V.A. KOPIWISHAYA, T. F., (M3R)
"Measurements of the rma:rr_.r Balance of Plant Tissues
at Different Water Saturation Levels."
Report presented a'. the 5th Int'l, Biocheaistry Congress,
I'loscow, 10-16 hug 1961.
-,ZHOLKgVICH, V.11,
Energy balance in respiring plant tissues under varions vater-
supp3,T conditions* Fiziole rast, 8 no,4:407-416 161,
(KM 14:11)
1. Kok. Timiriazev Institut of Plant Physiology, U.S.S.R.
Acaderq of Sciences Moscow.
~Plgmts-Respiration)
IMMINT11"If 1102 mm Leif
ZHOLM~j!'I(',fj:,,_V IifIETURIKO',"', L.,%, RQG.AC"!a7A, 1,.Yi,,
Pa.:, a p i r a '. i c ri eff-LAan.-IT and emcentrallon cf fi,3e radicale. Dc;
0 SSSR 165 no.:iz23,1-c.,,6 N 261~. (MTRA l8s:LO)
J.. Xnatitut fizl.~'Icgl.i ran-Arly br, AN fSSR 1.
.,.iistitut khimlchaqk(T f!~,~Jki AN SISSa. "L1
1
964o
ZHOLKEVICH, V.N.,- KHOLLER, V,A.; ROGACILEVA, A.Ya.
Correlation between respiration and heat loss in growing leaves. Dokl.
AN SSSR 158 no.19t2213-1216 0 164o (MIRA 17:10)
1. Institut fiziologil rasteniy im. X.A.Tiiairyazeva AN SSSR i Moskovskiy
gosudarstvennyy universitet im. M.V.Lomono,3ova. Predstavleno akademikom
A,L*Kursanovym*
KORETSKAYAp T#Fo; ZHOLKEVIdi.. 1r.m.
Effect of dehydration on the capacity of tissues of Vicia
fabs. for.axidizing glutamic acid. Fiziol. rast. 11 no.l:
87-92 -Ja-F 164. (MIRA 17:2)
1. Institut fiziologii rasteniy imeni K.A. Timiryazeva AN
SSSR.. Moskva.
MIM-mmommmm
SHOUMUCHO T.N.
Some problems of bicenergetice. Izv. AN SSMI Ser. biol. 28
no.4:562-573 J71-Ag 63 (MIRA 16tll)
le Institute of Plant Physiology, Academy of Sciences of the
UoSoS*Re, Noscove
PETINOV, N.S., doktor b1ol. nwilt, prof., otv. rad.;.ALE-KSEYEV, A.M.,
doktor biol. nauk., prof., red,, GEN'KEL', P.A., doktor biol.
nauk, prof., red.; GUSSV, N.A., daktor biol. nauk, red.;
ki~jvd, ':)Iv*!. nauk,, red.; KULITIASOVP I.M41,
VL'YMiOVA, O.G., red.
(Water balanoe of plants as related to their metabolism
and produotivity] Vodnyi rezhim rnatenii v sviazi s obmen*
veshchestv i produktivnostliu, Moskva,, Izd-vo AN SSSR,
1963. 334 P. (MIRA 16:10)
1. Akademiya nauk SSSR. Inatitut fisiologii rasteniy.
(Plante;-.w-Water requirements)
(Plazita-Metabolism)
ZHOMVD~? -VIIIN..
Adgorption capacity.of protoplasmic atructureo under the conditions
of a moderate dehydration of plant tissues* Fiziol, rast, 10
no-2:195-203 Mr-Ap, 163. (MIRA .16:5)
lp X*A* Timiriazev Institute of PLmt PbYsiology, U.S.S.R.
Academy of Sciences* Moscow,
(Plant cello and tissues) (Plante-Respiration)
MIOLKEVICH,, V.U.; RO=HgVA,, A.Ya.
Effect of water defioiency on changes in the acid-soluble organo-
phosphorus compounds in plant tissues. Dokl. AN SSSR 151 no.21
456-459 Jl 163. (WRA 16s7)
1. Institut fiziologii rasteniy im. K.A.Timiryazova AN SSSR.
Predstayleno akademikom A.L.Kursanavym.
(Phosphorus organic compounds)
(Plants, Effect of aridity on)
ZHOIXEVICH, V.N.; KHOLLERt'N.A.; KUSHNIRENKOt S.V.
Aftereffect of cooling.on the effectiveness of respiration of
oucumber.leaves. 'Fiziol..rast. -9 no.5:353-358,162. .(MIRA 15tll)
l..K.A.Timiriazev Institute.of Plant Physiology, U.S.S.R. Academy
of Sciences, Moscow and Department of General Chemistry, Moscow
State University. 7
(Plants-Respiration)
(Plants, Effect of temperature on)
ZHOLKEVICH, V.11.; ROGACUVA, A.Ya.
Effect of 2,4-dinitrophenol on the oxygen consumption by wilting
plants. Fiziol. rast. 11 no.4.662-666 Jl-Ag 164.
(HIRA :7:11)
1. Institut fiziologil rasteniy imeni TimirytizvVa At: ISS"SR, Moskva.
USSR/Human and Animal Physiology The Effect of Physical Factors. T
Ionizing Radiation.
Abe-jour Ref Zhur Biol.,, No 3~ 1959, 13393
Author Zholkiyer K 1.
Kazakh Adical Nstitute
Inst
Title Vasomotor Reflexes and Permeability of Blood-Carrying
Capillaries as a Result of X-Ray Therapy
Orig Pub Tr. Kafedry rentgenol. i radiol. Kazakshk. med. in-t,
1958, vYi). 1, 46-69
Abstract Tio abstract.
Card 1/1
- 156 -
-~L ##A
of tho roaa tion of eklels 10hempy. it
Alma-Ata, 1959. 18 PD OdAed Scientific Council of Institutes
n
of Physiology, BOAnter Fathiologyy Clinical and t-!xperirznta1
Surgery of Accad-~Ici Me 200 copies (KLY 34-5 j 117)
,SR )9
89
ZHOLKIVER, K.I., Cand ~Ifed Sci (diss) "Qualitative characteristics
BALMUKHANOV, S.B.; EELOSKURSMAYA, G.I.; ZHOLKIVER
Vasomotor reactions in man during X-ray irradiation for
therapeutic and-diagnostio purposes. Mad. rad. 8 no.8s
10-17 Ag 163. (MIRA 17:10)
1. Iz kafedry rentgenologii i radiologii Kazakhakogo
meditainskogo instituta i Instituta krayevoy patologii
AN Kazakhakoy SSR.
BAIMUMMOV) Saim BabLuk-hanovich, prof.; ZIIOLKIW--i(, Wrt Illich,
kand, med. nauk;
[Megavolt radiation thorapy] megavoiltnaia. lucheveia to-
rapiia. Alma-,Ata, KazwIffiskoe gos. lzd-vo, 1)63. 286 p.
(MBA 17: 8)
I. Kazakhskiy institut onk~ologii i radiologii(for both).
TMLITSC IA, To, master-povar; PMNIO, To; OTRADFOV, V,:
RKUTSn-TO-M. (Yuzhno-Sakhalinek); twnmSrIT, F.: IMILSUEDYA, No;
LARIOIWA, To
Our plAns for 1958. Obshchostv. pit. no.1:7, 11, 21, 31, 35, 39, 51.
J& 158. (MIM 11:3)
1.Zaveduvushchiy proisvodetvom stolovov NO-32 I-go Chelyabinakogo
tresta, atolovykh (f(w Zholkov)..26 Direktor Hoskovskay shkoly
kulinarnogo-uchanictiestva (Impenko). 3.Glavny7 irxhaner Soyug
giprotorga (for Otradnov). 4.Zaveduyushchiy proizvodatvom stolovoy
10.2 "Dallnevostochnik" (for RklitaklOo 59 Direktor Moskovskogo
tekhnikuma obahcheatvannogo pitaniya (for Vtpenskly). 6.4yeduyushabaya
uchabno)r chastlyu Moskovskogo takhnikum otshchestvannogo pitaillya
(for Barsukova). ?,,Direktor stolovoy sav6d& "Stankolit" (for Iarionova)
(Rastaurante, luuohroome, ate.)
(Gookilig-schools')
32613-66 -Z1 aWIDMO-W-ap
ACC NRt-
AT6011029 SOURCE CODE: UR/0000/66/000/000/0078/0 84
AUTHOR: Perov, V.. L (Lyubertsy); Zholkover, T. D. (Lyiibertsy)
ORG: none
TrrLE: Methods for evaluating and some ways for increasing theNiellability of the results of
automatic control
SOURCE: Vscsoyuznaya konferentsiya po avtomaticheskomu kontrolyu. I metodarn elektri-
cheskikh izmereniy, 5th. Avtomaticheskly kontroll I metody elektricheskikh tzmerenty; trudy
konferentsii, t. 2; IzFim~e~lfnyye informatsionnyye sistomy, UHtroyBtva avtomaticheakogo
kontrolya. Elektricheskiye rWerenlya neelektricheakikh Velichin (Automatic control and
electrical measuring techniquark; transactions of the conference, v. 2: Information measure-
ment systems. Automatic control devices. Electrical measurements of nonelectrical
quantities). Novosibirsk, Izd-vo Nauka, 1966, 78-84
TOPIC TAGS: reliability engineering, automatic control, system liability
ABSTRACT: Reliability is the decisive factor in automatic controllsince the information
gathered during Uie control of technological devices must reflect accurately their actual
state. The quantitative measure of reliability Is expressed by the probability that the result
is correct. Of all the possible factorB affecting the rellabi1ity of automatic control, the
au0iors investigate only the loss of Information caused by the quality ~f the control devices.
Card 1/2
ACC NRe AT7004929 SOURCE Cobs: 66/6W66W99675i6o
AUTHOR: Zholkover T. D. (Moscow):j" Perovs V. I. (Koscow)l Tarasova, L. S.
ORG: none
.-TITLE:. Effect of automatic monitaring and switchover dev-1ces on reliability of
systems with redundancy
SOURCE: Vses. konf. po avtomatich. kontrol i metodam elelictrich. izmereniY, 6th, 1964.
Avtomatich. kohtroll i metody elektrich. izmereniy; tr. konf., t. I: Teoriya izmorit,
Info. sistem (Automatic control and electrical measuring techniqueal transactions of
the, conference, v. 1; Theory of measuring information systems). Novosibirsk, Izd-vo
-Naukat 1966, 96-100
TOPIC TAGS: reliability, redundancy, automatic control aystem
P3 un"
ABSTRACT: Systems with active parallel redundancy in hS
which reserve elements RE (see f'Lgure) are controlled P3 11%q
by check-and-switchover ChS units is considered.
Reliability of one branch under ji-th load conditim In Out
is given by: Pm a PM* PXk, whdre P.* - reliability
of RE under m-th conditional P reliability
sk
of ChS under a-th conditions# ~A set F3 V"
differential equations describes the
Ld
jZa _hL_
ACC NNAT7004930 SOURCE CODEI FFj6C166/'600O6/6ffj6idf/0'1O6
AUTHOR:- Zholimm.J...4, (Moscow) i Yakoviev, A. 1. (11osccw)
:.ORG: none
TITLE: Redundancy required in meatruring instrument for obtaining maximum certainty
-of quality control
SOURCE: Vsos. konf. po avtomaticho kontrol i motodam olektrich. izmereniy, 6th, 1964,
Avtomatich. kontroll i metody olektrich. izmereniyj tr, konf. t. 1: Teorlya izmerit,
,info. sistem (Automatic control and electrical measuring techniquesi transactions of
:the'conference, v. It Theory of measuring information systems). Novosibirsk, Izd-vo
Nauka, 1966, 101-:106
TOPIC TAGS: redundancy, measuring:instrument,'reliabilit),, quality control
ABSTRACT: Reliability of instruments.and their schemes used in chocking quality
.(parameters within specified tolerances) is considered. Probabilities of correct
quality control in a scheme using n lower-tolerance-measuLring instruments and m
upper-tolerance instruments (n- and m-rate redundancies) are determined. Maximum
certainty of quality control could be achieved through a parallel scheme of
measuring devices.with n and m redundancies; however, thei probability of false
operation of an instrument not intended to measure a parameter in question increases.
Hence, caution must be used ift designing parallel redundant schemes. Maximum certaint,,
in the correctness of lfgo" resulto can be obtained in a paral-lel-redundancy scheme
with output elements connected 1A series. Orig. art. hast 4 figures# 20 formulast
and I table.
r-__j 414
ZHOLKOVSKI.Y K. MEL CHUK I*A
-------- -P leva ttc-aynth sis.- -NTI
6-method..1-andLizistr=amts of - n e
ossibl
no. 6: 23-48 ~*65. -(MIRA 18s9)
ZlioLKOVSKIY, D.I.
Device for additional veneer sheet cutting from logo. Der.
prom. 15 n-.1:25-26- ja 166. (MIRA 19:1)
PHASE I BOOK EaWITATION 8w
U.S.S.R. Komitet standartor,, zeri Ispe~riteiinvkh prnorav
Pribory d1ya izuerenlys, tespratury'i D& pwarinj Instruktivrwye materialy
(Temperature Measuring Instruments and Their ftlibmtionJ Instructions)
Moscov) Mashgizi 1955. 470 p. 10,000 copies printed.
Sponsoring Agen4t Vsesqy=47 natchno-isoledwatellskly institut metrologii.
Compilers: Gordov,, A.R.., CaWLIftte of Pb7sical and Kathematical Scienues,
Zholkavpkt
y,-9,&, Bngineei;,,~amd Boanovskiy., A.G., Enginqer; Edo.: Gordov, A.N.,
Cand: 'Idate of Physical and Hathewatical Sciences sxA Pilipcbmk, B.I. .. Can4date
of Technical'Scigaces; Tisch. Ed.: Sokolove, T.1r.j Yhnaglng Ed. for literature
on machine bolding and lnstrqmnt making (Hasbgis): Pokrovskiy, N.V.., Engineer.
PURPOSE: This set of $mtractions is #tended as a guide for state, Wustr7 and
trade controllers in testing and calibrating tentporature measurement instru-
ments in accordance with specifications establUbed by the Council of MInisterst
Committee,on Standards, Measures and Xeaeuring Inatrumento.
Card 119
Temperature Measuring Instruments (Cont.) 8W
COVERAGE:, The book contains Instructions for testing and calibrating t4mperature
measuring devices, Part 1. designed primarily for insp~otors and controllers
responsible for the correct'usage of measuring instruments in various branghes
of industry., carries a description of the more cmioWy used instruments and
provides basic instructions on their use. Part 2 contains instructions for
calibrating the different types of instruments. A vex7 extensive Supplement,
which actua.14 forms a third part, contains tables used in checking t4e instru-
ments, and samples of test form. The book vao drifted and comp:Ued by
A.N. Gordov., Candidate of Pbysical and XathematicaI Sciences and staff member
of the All-Union Scientific Research Institute of Metrology (VNIIK), and engi-
neers S.M. Zholkovskiy and.1L.G.' Soonovskiy of the Hoscov State Institute of
Measures and Measuring Instruments (MGIMiP). Final, editing, rewriting and
preparation for printing vas dones by the following members of tht All-Union
Scientific Rebearch Institute of Metrology: ChaptAtr I by A.R. Gordov..
Chapter 11 and Instructions 1, 2., and 3 by F.Z. Aliyeva, and B.I. Pilipchuk,
Chapter III and instruction 4 by F.Z' Allyeva., N.Z. Dolgiy, R.N. Medvedev,
B.I. Pilipchuk and Yu. F. ftl ''berg, ;h;p-ter IV and instruction 5 by F.Z. AliYeva,
and B.I. Pilipchuk* Chapter V and instructions 6, 7, and 8 by B.I. Pilipchuk
and N.H. Ergardt, Chapter 71 and instructions 9 WL 10 by A.S. Arzhanov,
Card 2/9
Temperature Measuring Instruments (cont.)
Chapter VII and instruction 11 by I.I. Kirenkov., Chapters VIII, UP X., and
instruction 12, 13 and;14 by A.N. Gordov, I.I. Kirenkcw and E.A. lapina.
All the above persons participited in vriting Chapter XI. In addition to the
tables in the Supplement the book contains another 45 tables and 148 diagrams
in the first two parts. There is a'total of 30 references, all Soviet.
TABLE OF CONTENTS:
Foreword 3
PART 1. DESIGN AND-01WATING PRINCIPLE OF INSTRUMM
Ch. 1. Temperature Scale 5
1. Definition 5
2. Primary fixed points on the international temperatitre scale 5
3. Areas of interpolation on the international temperature scale 6
4. Secondary fixed points 7
5. Temperature scale conversioa'aystem 7
Card 3/9
Temperature Measuring Instruments (Cont.) 8W
Ch. II. Resiatance Thermometers
1. Design and operating principle of resistance thermameters
2. Measuring devices and appliances for-resistance thermometers
Basic sources of errors
Ch.-III. Liquid Expansion Thermon3ters
-1. Design and operating principle of thermometers
2. Basic types of liquid expansion thermometers
3. Industrial liquid expansion thermometers
4. Laboratory liquid expansion thermometers
5. Calibration thermometers
60 Basic sources of..errciro
T. Specifications for using liquid expansion thermometers
Ch. IV. Manometric. Thermometers
1. Design and principle of optration
2. Basic sources of errors
3- Specifications for using mextometric thermometers
Card , 4/9
11
11
25
37
49
49
52
55
61
63
64
70
72
72
78
80
Temperature Measuring Instruments (Cont.)
Ch. V. Thermocouples
1. Principle of operation
2. Most common types,of themocouples
3. Design and structure of theizo.couples
It. Compensation lead-wires
Ch. VI. Pyrometric Millivoltmeters and Thermoelectric Pyrometers,
1. Desiga'and operating principle of pyrometric millivoltmeters
2. Basic types of pyrometric millivoltmeters
3. Errors of thermoelectric pyrometers (unit)
Ch. VIL Automatic Potentiometers
1. Principle of operation,, 'basic features., and electrical schemes
2. Tracing mechanism of the SP potentiometer
3. Tracing mechanism of the blectron potentiometer
4. Auxiliary devices
Card 5/9
82
62
86
91
94
96
96
98
103
105
10T
10-f
109
ill
Ch. VIII. Optical Pyrometers 114
1. emission
Principles of. 3-14
2. .
Brightness temperature 117
3. Principle of the "effective" wavelength 119
4. Methods used in.color pyrometry 120
5. Design and operating principle of the monochromatic
optical pyrometer 122
6. Specifications for usage 129
Ch. 1K .' Pyrometric Lamps 132
1. Design and operating principle 132
2. Specifications for using pyrometric lamps 135
Ch. X. Radiation Pyrometers 137
1. Design and operating principle 137
2. Specifications for using radiation pyrometers 142
Ch. XI . Calibration Instruments; !44
1. Thermostats 144
Thermostat testiftg 161
2. Equipment for testing industrial optical pyromeb3re 162
3- Potentiometers 169
Card 619
Temperature Measuring Instraments (Cont.) 8w
PART 2. SPECIFICATIONS
Specification No. 156-54 for Calibrating Standard Plrtinum Resistance
Theremometers 182
Specification No. 157-54 for Calibrating Platinum and Copper
Industrial Resistance Thermometers 189
Specification No. 158-54 for Calibrating measuring Attacbments and
Devices of Resistance Therwmaters 194
Specification No. 159-54 for Calibrating Liquid Expansion Thermometers 208
Specification No. 160-$4 for Calibrating Manometric Thermometers 254
Spegification No. 161-54 for Calibrating Standard Platinum-Rhodium
and Platinum Thermocouples Used for High Temperatures 262
Card V9
Temperature Measuring Instruments (Coat.) 8w
specification No. 162-54 for Calibrating Standard Copper-Constantan
Thermocouples of the 2nd Order
Specification No. 163-54 for Calibrating Working Thexmiocoupleo
Specification No. 164-54 for Calibrating Pyrometric Millivoltmeters
270
275
282
Specification No. 165-54 for Calibrating Thermoelectric Pyrometers (Unit) 295
Specification No. i66-54 'for Calibrating Automatic Potentio!meters 299
Specification No. 167-54 for Calibrating Disappearing.-filament
Industrial Optical Pyrdmeters 313
Specification No, 168-54 for Calibrating Standard PM=etric Lamps of
the 2nd Order dncl laboratory Pyrometric Lamps 323
Specification No. 169-54 for Calibrating Industrial Rediation
Pyrometers 328
Card 8/9
HESHOMSKIY, Mikita Alakeeyevich; 2HOIKO IY r or; SKVORTSOV,
I.Mej takhnichookiy :redaktor
[Balinometeis; their design, operation, and control] Solemerr
(ustroistvoo'ekopluatatsita i poverka). Mos"a, Goo. onargetichaskoe
izd-vo. 1954. 135 p. (KNRA St4)
(salinometer)
In
0-1-6WOR jffwmIsmHIg14jLXR#fHLq#
ZHOLXDVS]ay, S.M.
NOWANINS
Conference on instruments used in thermal and automatic control.
lzm.takh. no.4:86 ji-Ag 156. (KM 9:11)
(ThermomOtry) (Automatic control)
ZHOIKOYSKIT. S.H., red.
(Instructions 263-54 forchacking industrial capillary
viscosimeterol Instruktsiia'265-34 po poverke rabochikh
kapiiliernykh viskozimetrov. lzd. ofitaiallnou. Mo-
skva, 1957. 16 p. (MIA-A 14:5)
1. Russia(1923- U.S.013.H.) Kcmitet otandortov, mar i izmri-
tellnykh priborov.
Ori mco aims ter.--To sting)
, i . i , ~: ~ .
- IL ~:~, - , - - % - - - . .. I : . - . - - i T, -_i - 61 "'0, 1 f f f f* . 1 -1 . - ; 1 7
ZHOLKM, A.
Crisis In the Ruhr Valloy and West German trade unions. Sov.
profeoiuzy 7 no.20:56-57 0 '59. (MIRA 12:12)
(Ruhr ValloV.-Coal mines and Mining)
(Germany,, Wout-Trade unions)
ZHOMAR, V.Te.
Holder for &ouble-blad ed knive2. Vest.kh1r.76 no.9:117 0 153.
KRA 9:1)
1. Is Khirurgicheakog) otdelentya (zav. V.Te.Zholkyer) Bokovo-
Antrateltovskoy bollnitay Yoroshilovgradekoy oblasti.
(SURGICAL INSTX3MM AND APPRATUS)
DG r1', S,j VV ~ P 10 CH, V i " 5 111 !:(1-' vIJ
"ethod for the core yield or the De~st..nubc
Plazved. 1. o`h. nedr '10 nc).'7:1?--25 JI li
metal depo,,it
(1.11111A. .17: 12)
,ornorudnyy instiLut (for Dciu:jov)
geolc-orazvcdochanva
Darsukcv)
(Kinsi experimentai farm] Kinakoe skupertmentallnos khoslaistvo.
Kinsks 1938o 21 P, (MIRA 12:3)
(Kinak-Agricultural experimelit stations)
,-Z-HPLMMOVICH Anton Mikbaylovich; DANIWVICH9 Anton Filippovich;
'm.& ~Y;"IW
R
LE r~ EITINt I~T*t tekhri.rdd.
[Agricultural utilizatOn of drained areas] Sellskokhoziaistvenftoe
onvoenie oouahemWkh;zvmell. 14oskvat Izd-vo Olzdaniopw 1963.,
-31 ps (Vamiumoe obalicbeetTo po rasprostmaaniiu politicbesWch
i naucbrqkh znanii, Ser,5p Sel'skoe khoziaistvot no.12)
(Drainage) (Agriculture) (KCRA 31~; 6)
M
ZHOLNEROVICHJ-4,Gtj_red.j SH3LYAKGV, M.I., red.;~USIIAKOVA, A.F.,
ved. red.; VORONOVA, V.Vo) tekhn, rad,
jUnified time norms for bench repairing of boring machinery]
Edinye normy vremeni na, slesarnyi remont burologo oborudovanils:~,-
Moskva, Gostoptakhi-zdatg 1963. 178 p. (MIRA 161g)
1. Russia (1923- U..S.S.R.) Gosudarstvemiyy komitet po vopr6-
sam trada i zaratotnoy platy.
(Boring machinery-Maintenanco and repair)
IMIEM"MPHE
ZHOLMOI:FlCH D G
red,; P1161MRSY, Te.l., red,; MOWUUOVAI, G,F,p
vedushchly red.; GARRAp L.Y., takhn.red.
(Handbook of standard cousolidated.time norms for mochanical
repair of equipment'nsaA In structural and core drilling]
Spravochnik tipovyk)i vicrupnennykh norm vreseni na slesernyi
remont oboradovenilm strakturno-poiskovogo L kartirovocbuogo
bureniia. Koakvat 11oe.nauchno-tekbn.ir-d-vct neft. i gorno-top-
llvnai lit-ry, 1960, 107 p. WRA 13:11)
1. Moscow. Hauchno-isoledovatellskiy Inatitut trads. TSentrall-
noye byaro promyshlennykh normativov po tnLdu.
(Boring)