SCIENTIFIC ABSTRACT SIROTOV, K.M. - SIROVATKA, O.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001550910003-7
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 24, 2000
Sequence Number:
3
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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1, SIROTOVY 'K.M.- ,
Ocean swell. Okeanologiia 3 no.4:633-637 163. (~M 16:11)
1. Go,-;udarstvennyy okeanograficheskiy institut.
SIROTOV, V.A.
Sizo'of drying bores and methods of determining the humidity of broad.
Vop.Plt- 13 no-5:48-49 3-0 '54. (KWU 7 -.9 )
1. In laboratoril 3-y soultarna-spidesiologichookoy stantali (Alatyrl
Chuvashskoy ASSN)
(Breit&)
13 7- 19 58- 2- 219 7
Translation from. Referativnyy zhurnal, Metallurgiya, i958, Nr 2, p I (USSR)
AUTHOR Si rotov, V. I.
TITLE: A. A. Jznoskov Pioneer of the Open-hearth Process in Russia
(A.A. Iziloskov pioner martenovskogo proizvod5tva v Rossifl
PERIODICAL Tr. Nauchn. stud. o-va. Gor'kovsk. politekhn. in-t, 1957, Nr 1,
pp 6C-63
ABSTRACT An account is given of the accomplishments of A.A.Iznoskov,
who built -an open-hearth furnace in Russia in the year 1870.
General 'information concerning the first Russian open-hearth
furnace is included.
P. N.
1. Metuallurg7-Conference-ILTSSR
Card 1/1
SIHOTOV , I.I., lots.; -61ROTO-VI~,
STUTWEV, G.K., ofitsiallriyy
PLESKO, Ye.P., red. izd-va;
GREGHISHCHENA, V.I.9 tekhn.
inzh.; RASLENKOV, F.N., dots.,-
retsenzent; SULIMOV, A.N.,, red.;
SIIIBKCVA, .-,-.Ye., tekhn. red.;
red.
(Forest exploitation]Lesoekspluatatsiia. lloskw I Goslesbum-
izdat, 1962. 359 P. NIRA 15-.-U)
1. Direktor Krestetskogo lesopromyshlermogo khozyaystva
TSentrallnogo naucjmo-issledovatellskogo instituta mekhani-
zatsil. i energetik! lennoy pronyshlennosti (fcr Stupnev).
(Lumbering)
, SIROTOVA, - T. S~. --.- --
Change in the permeability of the capiUaries :-n pneumonias in
children. Pedintriia nc.9%V-37 161. (MI-RA 14-.8)
1. Iz kafedry pediatrii (zav. - prof. E.A. Gorni*kaya) I 14nin-
gredskogo meditsinskogo instituta imeri I.P. PavlovE (dir. -
dotserit A.I. Ivanov).
(CAPILLARIES-PERMaILITY) (PLIEUMOVIA)
40 0 * 4~0 too * ae,lvo Gla ;"
goo 0o o 0 of' 0 00 410 0 44 0 0 ~a
)) v A) D 3) a m is
L-1 i7-of-011111TI-M, MIA N U. v ~i
00.1 Moly A" imo 041,443
ONOVINTIS i"Ll-
00
go
of Orefroodre (or wChfifte 44rurtarml Ng"Im. MI "ll's
SiArl.) S. K. Zveg'intsev attd F-1-SaLits. Attagenry-,
00 Dela ( lVehfing). v. 21, Aiig. 1950. 1y, 2.5-27,
Dek-rdws chatittleriak-a of Mur elm-trmles med for
L, welding kjow-olloy serwittral strels. Bale
::,1 .4 Uf 21M c4milrofflimm are it%! elf Intsk, comlinit
lit
Containing marb Ruimspar, efc., as Slag fmIll-r';
resence of ferroalloys (ferrusibcon, fermnangant-j!,
00a ferrotitanitim) of the fused rmlAl; atid low coottent of
"Innful Intpurifles 6ulfur wid phoiViorus). WC111-
Zt cl 'Pristivi of individital ~-trcpdN wcvc
- 1 .2 ,
-00
o0
~00
-041
ge
-04
'00
:04
glues
too
woo
so
goo
igloo
S L A me1SLLVFlCXAL UMIATM! CLASINFKAYMP
Is *O-6im,
a- woo
it W180 .. ~ 1.1041 .1. cr.. a-( Gj'1J1Ql SIAL111 dtf an* Lit Jgas
U Is AV ":) -;S r F . . . 9 1 T ZA An A. S 8 ew a 01 IF I IF IN I Am a 3 0 9
11 .16 10 a, Jt 4. a, a .11, of a I K4 On
41 0 0
e
941090 0 0 0 0 0 ~o 0
PALAMMUTK, Maksim Yartynovich. kand.ekonor-alchnvkh natik.;
LSIROTSINS,uRTI, CIE]. prof. doktor ekonomichiqkh nauk, red.;
HOM11KIN, I.G., red.;
[Dev *10 terit of sugar bept growj.ng and the sug-ar industry In the
Ukralne~ Rozvytok buriakkosilannia I taukrovoi prowyelovostl na Ukraini.
Tylv, 1958. 39 . fTovarystvo dlia Dosyrennin polltychVkh i naukovykh
2nan' Ukrains'koi RSR. Ser. 2, no.71 (14LU I-L:8)
(Ukraire-Sugnr industry)
LUKINOV, Ivan 111arionovich, kand.ekon.nauk; SIRMSIRSKIY1, K.Ye. [Syrotaynalkyi.
K.U.). prof., doktor ekon.nauk, red*-, Kmm-mmr;-r-.%-.f1ersl1kin,
I.H.I. red.
(Labor productivity 'in agriculture and ways of incressing it)
Produktyvnist' pratmi v sil'alkown hospodarstvi i shliakhy ii pidvy-
shchmnala. Kylv, 1958. 70 P. (Tovarystyo d1la posbyrenula poll-
tychafth I naukoTykh snan' Ukrainalkol RSR. Ser.3, no.15-16)
(KM 12:3)
(Labor productivity) (Agriculture)
10HUSHAYT, Karl-Geynts [Ionushait, Karl-Heints), doktor; SIROTSINSKIY.
-"4W[Sirotsyns1kyi, K.1E.1i giavnyy red.;.
Ci-~:oshkin, H.S.], glavnyy red.
(Socialist reforms in the German Democratic Republic] Sotsia-
liE;tychni paretvorennia v Nimetalkii Demokratychnii Respublitsi.
K.vi.v, 1959. 79 p. (Tovarystvo dlia poshurennia politychnykh i
nai:Lkovykh znan' Ukrains'koi RSR. Ser-3, no.8-9) (MIRA 12:12)
1. Chlen-korrespondent Akademii sellskokhozyayst"nnykh nauk
USMI (for Sirotainakiy).
(Germany, last-11conomic conditions)
CEIERVENKO, K.; SIROTSKIY, 1.
Disconnecting the gasoline pump of gas generating and gms cylinder
automobiles. Avt.transp. 32 no.:4:35 AP '54. (MI-RA 7:6)
(Automobiles--Gas producers) (Automobiles--Magines (Compressed-gas))
Shipping - Indmatry
Mchin -1 71isting
wCaloulations for Hoisting Devices Which Hold Lqads
by Mws of Friction, " V. Sirotakly, TeNIINT, 5f PP
wMwsk:?lotw No 3
Presents various formulas to calculate permissible
loads for several types of grapplers (grappling
hooks for lifting loads).
Qr)o
I, i.~,T A L
C E I %~ C L 0 CY
Feredviz'hnaia laboratoriia dlia is-,, -,-,tariiia podt I enmo-t-nansportnykh
fi"Jashir v eksplusitat9ior-Mykh uslov.'iakh Nobile laboratory for testinry
',,cdbtI-nIu I,Ind haul.-Ing rnwc~int--s uff?,r ivork cond,tiorls). M o S Ir, v R-
~';orskoi trans-ert, 1951- 33 P-
~.Ionth17 List of Russi-nn Access,ons, Library of Congress, November 15r-2.
Unclassified.
GIROTSKIY, V.
Brief summiary of the study of the work of efficient dock crane operators.
Mor.1 redh.flot 13 no.8:4-7 D '53- (MMA 6:12)
(Granes, derricks.' sta.) (Gargo handling)
SIROTSKIY, V.
-I. ~-
Brief reeults of the stu(br of the work of efficient dock crane opera.
tora. Mor.1 rech.flot 14 no.1:9-12 Ja 154. 0"A 7:1)
(Cranes. derricks. ate.) (Cargo handling)
SIROT.WIY, V., kandidat tekhnicheskikh nauk.
Operation of harbor cranes. Nor. I rech.flot 14 no.3:9-10
my '54. (MLVA 7:7)
1. Leningradskly, institut inzhoneroy vodnogo transport&.
(Cranes, derricks, ate.)
Narne: SIROTSIM, Viktor Filippovich
Mssertation: Dynamic processes in intensively
operated port rotEting cranes
Degree: Doc Tech Sci
Af f i1i at ion: fn-ot indicateg
Defense Date, Place: 1 Jul 55, Council of Leningrad Inst of
Engineers of Wate--- Transport
Certification Date: 7 Sep 57
Source: BKVO 22/57
43
SIROTSKIY, V.F.
I !,;_,~,~
.11 ~,-, -~ ILI. - , ,
Organizing research in the field of mechanizing harbor
operations. Racb. transp. 15 no-9:15-10' S '56. (MLRA 10:2)
(Cargo handling) (Harbors)
SOV/124--58 -11 12152
Translation f rom: Referati, nyy zhurnal, Mekhdrika, 11.158, Nr 11 , p 26 (USSR)
AUTHOR: Sirotskiy, V. F,
TITLE: The Stresses Produced in a Rolary C:-ane hi he Swing~na of its
Load -,Nagruzki na pc,,.orotnvye k-a-i,,. yz%,,,-Avemyye rasVachi.a
niyem gruza)
PERIODICAL: V sb, : Vopr, teoril i rascheta pod"yernno,transp. masYin.
Moscow- Leningrad, Mashgiz, 1957., pp 48 -74
ABSTRACT: The author exarn;-es the osc:-,at-i-if~ ot d crane's load under
different operating cond*ltion-, of the (:Katie, The crane :s regarded as
a rigid system from which a rnas-s load ;s suspended on a nontensible
thread. Under this premise the csClldtions of the load are determined
by the motion of the pcint of suppc-:t -,nd by the change in the suspen--
sion length of the supporting cable. When the cable's deviations from
the vertical do not exceed angles of ~O 25o. the oscillations or the load
are considered to be small, The eqdations of mot;on of the load are
written in terms of the relati: e coordinates and are sol-ved for the
two cases in which the suspenbion k-ngth of the supporting cable is
Card 1/2 lengthened or shortened, 1) at a constant speed, and 2) at a constant
SOV'/124-58-11--12152
The Stresses Produced in a Rotary Crane by the Swinging of Its Load
'acceleration. To do this, the author uses cylindr-cal functions of the first and
second kinds and their asymptotic representati, Otis I
V. M. Makushi,,
Card Z/z
SIROTSKIY V.F., kand.tokhn.nauk.
- I
Effect of characteristic rigidity of an e-gine on the movements of
crane mechanisms. Trudy TSNIIMY no-11:55-60 157. (MIRAL 11: 2)
(Cranes, derricks, etc.)
(Power (Mechanics))
SOV/124-58--11-13343
Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 11, p 203 (USSR)
AUTHOR: Sirotskiy, V._F.
T IT LE: The Combined Action of Lungitudinal and Transverse Loads on the
Boom of a Crane (Sovmestnoye deystviye prodot'nykh i poperechnykh
nagrLLZok na strelu krana)
PERIODICAL: Tr. Leriingr. in--ta inzh. vodn. transp. , 1957, Nr 24, pp 241-249
ABSTRACT: An investigation of the flexure, compression, and twisting of a pris-
matic boom having a constant cross section leads to two linear differ--
ential equations of fourth order having a right-hand part in the form of
a second-power polynomial. The solution yields an expression for the
bending moments acting upon the boom of the crane. The author then
solves the problem of the flexure and compression of the boom of a
crane having a variable section. The author obtains a refined bending
MOMEMt for a boom of the assurned structural configuration, provided
that riot only the compressive but also the bending action of the longi--
tudinal force is taken into account, when the boom is bent owing to
the action of a bending moment and a transverse force.
Card 1/1 N. P. Dinnik-Grishkova
SIROTSKIT, V.F., doktor tekhn. nauk; ARTEM'nW, P.P.. kand. tekhn. nauk;
1--~,mw.#**,~W-,-P.P., inzh.
Operattonal cycle of harbor cranes, Rech.transp. 17 no.9:20-22
S 958. (MRA 11: IIL)
(Cranes, derricks, etc,~ (ELarbore)
SIROTSKIY, V.F.
Dynamic loads on jib units of swing cranes. Nauch. dol-A. vys. shkoly;
mash. i prib. no.2.'57-61 '59. (MITRA 12:12)
(Cranes, derricks, ate.)
SIROTSKIY, V.F., doktor tekhn.nauk; GRIGOR'YEV, N.I., inzh.; ARTEMIYEV, P.P.,
-- -- I-- - ~ Jrhn.nauk
Angles of declination of cargo cables of portalcranes during operation.
Rech.transp. 18 no.7:19-21 JI 159. (NM 12:11)
(cranes, derricks, etc.)
SIROTSKIY, V.F., doktor tekhn.nau-k, prof.; ARTFMIYEV., P.P.J kand.tekhn.
na'U, dotsent
Time length of gantry crane cycles. Trudy LIVT no.4:3-7 160.
(SERA 119:311
(Cranes, derricks, etc.)
ANANIYEV, A.A.; GOKHBERG, M.M.; DUKELISKIY, A.I,, prof., doktor tekhn. nauk;
LANG, A.G.;IIAYZEL', V.S.; MEKLER, A.G.;~SIRQTS
, -K-11,--V.F.; KOGAN, I.Ya.,
kand. tekbn. naukp retsenzent; RMGOLIDT, Yu.A., kand. tekhn. nauk,,
retsenzent; SAMUYWVICH, P.A., kand. tekhn. nauk, red.
[Reference book on cranes) Spravochnik Po krannm. Pod red. A.I.Dukell-
-skogo. Moskva., Mashgiz. Vol.l. [General design, materials, drives,
metal constructions] Obshchie raschetyj materialy, privody,, metalliche-
skie konstruktsii. By A.A.knan'ev i dr. 1961. 455 P. (MIRA 14:11)
(Cranes, derricks, etc.)
SIROTSKIY, V., dok-tor tekhn. nauk; BORODKIN, B., k&nd. tekhn. nauk
Contribution to industry by scientists of the Leningrad Institute
of Water Transportation. Rech. transp. 21 no.10:19-20 0 t62.
(MIRA 15-10)
Jnland water transportation-Research)
DMITRIYEV, Valentin Aleksandrovich, doktor tekhn.nauk, prof.;
DOLGOLENKOP Anatoliy Aleksandrovich, doktor tekhn.nauk,
prof.; HARKOV, Vladimir Georgiyevich, k&nd.tekhn,Nauk,, dotsent;
SMIRNOV,, Sergey AlekBandrovich, kand.tekh&bauk, dotment;
Y, VF -'retsenzent;
41ROTSK L __ ,,doktor tekhn.nauk,, prof.,
MALITSEV, V.N., kand.tekhn.nauk, dotsent, retsenzent;
VORONKOVSKAYA, A.P., red.;.VOILHOK, K.M., tekhn. red.
[Theory of mechanismp and machli". machine parto and holatIfie-
conveying machinery] Teorlia mekbanismov i mashin, detall mashin
i pod"emno-transportnye mashiny. Leningrad, Izd-vo "Rechnoi tran-
sport," 1963. 580-p. (MIRA 16:6)
(Mechanical engineering) (Hoisting machinery)
(Conveying machinery)
. T~ I I 17
a-7-
ri i oil C f
an.j rivers.
cyanide.,, and PYrlcI4,r'r-,c -'0 th Itl
voe". n-~6,2,FG-28') 164.
San. oklir. vcd. et zagr, MIRA 18:3)
-L.
g i F,i p- riy.
GRINGOLITS. L.A.; KOZYREV, S.M.; SIROTTA.j.L.: FILIM, M.D.; YURY.RVICH,
V.S.; GUREVICH, Ya.D., radaktor; BM04AN, Yu,K.. vedushchiy
redaktor-, POLOSINA, A.S., tekhnicheakiy redaktor
[Manuml of wages in the petroleum Industry] Spravochalk po
zarabotnoi plate v neftianot promyshlennostio Izd. 2-oe. parer.
I dop. Moskva. Goo. iukuchno-tekim. izd-vo naftianoi I gorno-
toPlivaoi lit-rY. 1956. 342 p. -(MLRA 9:10)
(Wages) (Petroleum industry)
KRIVENKO, M.G., red.; SIROjTA,_._%L,4,-, red.; U~HAKOVA, A.F., ved. red.;
VORONDVA, V.V., tek-Im. red.
[Uniform time norms for drilling exploratory, structural,
and geological wells] Edinye normy vremeni na burenie ras-
vedochnykh, strukturno-poiskovykh i kartirovochofth skvazhin.
Moskva, Gostoptekhizdat, 1963. 127 p. (MIRA 16:7)
1. Moscow. TSentrallnoye byuro promyshlennykh normativoy p0
trudu.
(Boring)
j
t07Q7-AA FITE (I'ZEIWA(h) CC,
ACC Nk' AP5028509 SOURCE CODES Ult/0286/65/000/020/0095/0095
yell
AUTHORS: Sukhomlinov. H, H,; Pelipenko. N. I.; Ferenet3. N. K.; Onishchanko, E. Let-
Shikalov, V,,J.; Gorban'. A. M.; Siro~yan, V,_q,
YV, j- 5
ORG: none
TITLEt A memory 4evice vith magnetostrictive delay lines, lass 42, No. 175749
4rannounced by,'Inatitutq of Automation of the State Committee on Instrument Vanufac-
titu -
ma.-on and Control Systems of Gosplan, SSSRR Ins t
avtomettki gosudarstvennogo komiteta po riborostroyeniyu i aredstym avtomtiki I
sistemam upravlaniya pri gosplane SSSR)j
SOURCE: Byulletent izobretenly I tovarnykh anskov, no. 20, 1965, 95
TOPIC TAGS: electromagnetic memory, circuit delay line, storage device
ABSTRACT: This Author Certificate presents a memory device using asgnstastrictive
delay lines. The device contains input and output converters, regensMtion circuits,
and a synchronizing generator, In order to Increase reliability, one of the digital
columns of the device in used as the synchronizer. Its regeneration circuit has two
input converters spaced at a distance equal to a prime.wavelength number (excluding
tvo) (as* Fig. 1). The distance 1xitween the Input and output converters is not a
wiltiple of the distance between the iWt conv tore,
Crd UDCs 661.1Qs621.374.5
L 9797-66
ACC NRv AP5028509
Orig, art. bas z I f1gure.
SUB corn, 09/ 303M DAM 2%op&4
Fig, 1, 1 - mAgnstostrictive line;
2 and 3 - input converters;
A. - output commAer;
reading ampliflar;
shaper 1 7 - eiredt of
single start-W,
I; UOW5-07 zwrk CL) I tWTki)/Lwr%v)/mwr% K)/kkirkn)/twrk.L) VD
ACC-NRI AT6029231
1AUTHOR: Sukhomlinov. M. M.; Ferenets, N. K.; Onishchenko, E. L.; Pelipenko, N. I
ikjj&j,,~,&-Kholmskaya, Ye. V., Sirotyan, V. G.; Dodonova, G. M.
ORG: none
TITLE: Digital-analag computer syste~tsing t~agnetorv;rictive clelay lines
SOURCE: V*&sgyuzna -konferentsiVii-seminar po teorii i metodam matematicheskor-o
-imodelirovani.ya. 4th, Kiev. 1964. V hislitel'naya tekhnika v upravienii (Computer
technology in control engineering); trudy konferentsii. Moscow, Izd-vo Nauka, 1966,
143-152
TOPIC TAGS: digital differential analyzer, circuit delay line, magnetostriction, com-
puter control system
ABSTRACT: The authors describe the design and performance of a d~&~ija!l differenti
analyzer using m.agnetostrictive del y lines as memory elements. The authors claim
that such a memory has the advantag a of a high speed ferrite core memory and the econ-
g
omy of a mapnetic drum. The digit differential analyzer has the followi ng parameters
32 integrators, binary operational je, a, 20 bit words, 250 KHz cycle rate, 400 opera-
tions per second, and error not j=eZinj 0.01%. The operational program and the ini-
tial conditions are entered manually through switches an a control ccesole. The data
entry can be manual. using decimal or binary codeng or automatic. The digital
Card I /I
L 06405-67
ACC NR- AT6029231
differential analyzer consists of a memory, computational unit, control unit,'Input %n4
output equipment, control console and code converters. Of particular interest is the
design and performance of the memory. The memory uses eight magnetostrictive delay
lines, shown diagramuatically in fig. 1. The lines circulate the initial conditions
data, the program, the increments, the interwsediate results, and other information.
The electrical pulses are converted into acoustical signals utilizing the magnetostric-
tive phenomenon. The acoustic material should be a nickel-iron-titanium alloy, which
reduces the temperature effects on the delay time; in the absence of such material,
nickel wire of mediua hardness can be used. The diameter of the wire is very impox-tant.
It determines the resolution of the delay line and the magnitude of the output s 'ignal.
The thinner the wire, the better the resolution and the lower the output signal. An
optimum diameter for, a 250-1000 KHz signal rate is 0.5-0.8 mm. To reduce the reflec-
tion coefficient and physical dimensions, the delay line is formed into a flat
Archimedes spiral housed in a flat cylindrical enclosure. The performance specifica-
tions for the ultrasonic delay line am as follows: operating frequency 50-1000 KHz,
.~delay time 800-3000'microseconds, resolution 0.5-2 Microseconds, signal-to-noise ratio
greater than 4, and power consumption 1.5 w. The other functional units of the digital
differential analyzer am deswibed in detail. Block 4agrans and perforsance data all
given. (h~lg. an. hast 1 tables 6 ftmulass 4 fiaumo
Cara 212
I
.- -I
r L 06405-67
A
L 4197-66 EWTf1)/E1M(h)
ACC Nih "50232-14
AUTHOR: Gorban't M.;
V.G.; Ferensts,.N.Fz.;14
'T(CM-MateofTechnicid8cloweal
UR/0302/65/000/0 V0035/00
534.232.45
IL - ~G M - Onlobdiedw E. L.; 5
-Y6. Ow" .8.;&ddKMMl1ftWV2-M.NF.-
TITLE: Magnotostriction 4OU I!pgL
SOURCE: Avbxnatflm i no. 3, 1966, 35-37
TOPIC TAGO: magnelastricifon, ciradt debW line, ferromagnetle material, dew circuit
ABSTRACT: Magnetostriction delay lines are based an the fact that ferromapetic
materials transmit ultrasound with a speed which In lower thm the speed of electrical
signals through convenilonal circuits. The budnqt avtomatild Gosudarstvennogo komitetapo
priborostroyenlyu, oredtavam. avtomatizataii, I sistemam upravleniya pri Gosplane SMR
(Institute of Automation, State Committee for the Deolim of bast=ents. Means of
Automation. and Cont:rol Systems attached to Gooplan SM) developed three such delay
lines with delay times of 80, 640, and 2560 psee, respectively. The block diagram of ths
devices is shown In F~ig.; 1 of the Enclosure. The sound conductor is made of an 'IN-1, hard"
nickel all wire 0. 7 junt In diam Us Young's moduhm in W~out 21,000 - 23, 000
OY
kg/mm2, specific density in 8.9 g/cm3, ultrnmmd velocity is 4,750 - 5,050 pose, and,
the temperature coefficient of delay JA 1.4-10-4 per *C. The article presents the rtjniltt~
circuit diagrams and -a detailed descriptiGn at the del" line operatica. Orig. art. Me.-
I formsda and 4 f1prwo.
L--4497-66--
ACC NRiAP5023274 ENCTOSIJRr.,.- 01
Figure 1. Block diagTam of the magnetostriction delay line 1 - Input signal shaper;
2 - muffler; 3 - transmitter magnetostriction converter; 4 - permanent magnets;
5 - sound duct; 6 - receiver magnetostriction converter; 7 - output signal amplifier;
8 - pulse spreader.
3/3
Card
ANTMOV, Ivan Aleksandrovich; BEREZINA, I-ariya Likitichna;
SDiC)TYYUKp A.K.., retsenzent; KULIKOVA, T.I., retsenzent;
S111-UMAGINA, V.I., red.
[Technology of the manufacture of men's coats] Tekhnologiia
izgotovleniia Lruzhskikh pal'to. Moskva, Legkaia industriia,
1965. 203 p. (1,JRA 18:9)
BARONY L.I., prol'., doktor tekhn. nauk;.SIROT'fUK, G.N., gornyf inzh.
Estimation of the resistance of rocks to being broken by dynamic
loads. lfzry-v. delo no.53/lCt6-16 163. (MMA 16 t 8)
1. Institut gornogo dela im. A.A. Skochinakogo (for Baron)*
2. Kollskiy filial AN SSSR im. S.M. Kirova (for Sirotyuk).
(Rocks-Testing) (Blasting)
34503
3/169/-2/000/002/041/072
D228/D301
6,
AUTHOR5: Markovich, M. L., Muchnik, V. M. and 4;rotyULc,__L~.;[_.
TITLE: Some data on the structure and development of thunder-
storm showers obtained on the basis of radar measure-
ments
PERIODICAL: Referativnyy zhurnal, Geofizika, no. 2, 1962, 27, ab-
stract 2B204 (Tr. Ukr. r,.-i. gidrometeorol. in-ta,
no. 26, 1961, 47-57)
TEXT: Adjusting the receiver amplification the authors obtained
different boundaries of shower foci and determined the cloud-echo
uAlue Z at the3e boundaries. Using an empirical correlation con-
necting Z with the precipitation intensity I (Z-3 Ic',) the appro-
priate prec'ipitation intensity I was ascertained. The coefficients
3 = 1.69 andck = 3.27 were found from the data of 88 cases of rain
observations at Kiyev in 1958 and 1959. The ratio of the receiver's
sensitivi-,,y to tile power emission magnitude was controlled by
Card if/ 3
Some data on
3/16 62/000/002/041/072
D228YD301
means of*an echo-device fixed at a distance of 2 m from the aerial.
During the observations the screen was photographed at 10 different
gradations of the receiver's sensitivity (approximately every 2 -
3 db). The full section of the focus for all gradations was accom-
plished in 60 3ec. The intervals during the photographing amounted
to 10 - 15 min. Photographs of foci with clear boundaries at all
sensitivity gradations were selected for analysis. The exponential
dependence of the precipitation intensity on the distance to the
focal center -- I = b x a r __ is established from observations
on 57 foci during 11 days with rain. Divergences from the exponen-
tial law are noted for peripheral and central parts of a focus. It
is apparent from the data adduced in a table that the magnitudes
of "all and 11b" vary from case to case in broad limits and have to
be fQund separately for each focus. When considering the rate of
focal development and attenuation the authors established that the
area of a focus grows (during its development) or diminishes (dur-
ing its attenuation) linearly with time. The areas of foci, en-ve-
loped by the isolines of equal precipitation intensity, also grow
Card 2/3
SIROTYUK, L.V.
Biological properties of tularemia vaccine strains produced by the
Scientific Research Institute for Epidemiology and Hygiene. Zhur.
m:Ucrobiol... epid. i immun. 41 no.10:116-120 164. NIRA 18:5)
1. Gosudarstvennyy kontrollnyy institut meditslinskikh biologi-
choskikh preparatov imeni Tarasevicha.
L;,. ...,
f- I I ~,
ILJI 1',, 1". J.
M. A. Isakovich and ?". G. Sirotiuk. A variant of the Tepler method applied to the
observa-,ion of ultra. souid fields. P. 715.
Jan. 24, 1951
SO: Journal of Tecl.niical Physics, Vol. XXI, No. 6, June 1951
SMOTYUK$ M.
IISSR/Electronice - Television mar 52
Video Amplifiers
"A Ilew Video Amplifier Cirucit," Yu. Serwnnikov,
M.I. -Sirptyuk
"Radie No 3, PP 31-34
Describes a new system for correcting the fre-
quency response of video amplifiers based on the
use of neE feedback instead of correcting coils..
States that good results were obtained with a
2-tube amplifier in which the lst stage is un-
corrected while the 2d is corrected to give a
uniform over-all frequency response for both
stages. 229T65
PHASE I BOOK EXPLOrTATIObl SOV/3528
Moscow. Dom nauchno-telthnicheskoy prapagsx~ly
PrImnenlyd ul-tr- vuka v promyshlerLno3ti; 3bornik statey (In-
Use of Ultrajound; Collection or Art-IcIdd) Mancow,
dustrial
Mashliz. 1959. 301 P. 8,000 copies printed.
3po noring Agency: ObohahestvO po ramprostrananlyU politiahosklkh
lnnauchnykh znaniy RS?3R.
Rd. (Title page). V.P. Nozdrev Doctor of Physical and Mathematical
Sciences, Professor; Ed. (Inside back): G.P. Kochetova, Engineer
Tech. Ed.; V.D. El'kind; Managing Ed. for Literature on Machinery
and Instrument Manufacturing (Mmangiz): N.V. Po~_-Ovvkiy, Engineer.
PURPOSE-. This book 10 intended for engineers sad technicians engaged
in the application of' ultrasonics In machintry manufacture and In
other branches of industry.
COVERAGE-.-This is a collection or papers read at the first all-
rininn a farar!~-e en the u2e of I=
I* focused mainly on the description of LLItrason.46-iqu.Voment and
on the use of ultr"Ound for the machintmg Of hard materials and
for flaw detection. The affect of ultra"=4 on metal-cry3talla-
tIon processes In also discussed. No personalities are mentioned.
References accompany many of the papers.
Engineer; and Candidate or
Teihnical Sciences. Ultrasonic Equipment for Industri&I Applica-
tions 64
markov, A-.I-_,'CsAd1dat6 of Technical Sciences Docent. DeaIgn
-Kffd-Const7ruction or Vibrators for UltrasomLc Machining TT
Bulycheva, I.N., Candidate Of Technical Sclcnae3; Y J. qU,,jCh
Sciences A~
; and Ya.P. Selis3kjy, CsnYfdj~j`e~
0r Technical Sciences. Magnet tc Allciis fEr_C1tF&iOn,1C Applies-
t1ons 91
Ma"Y, L.O., Engineer. Methods of M,~mg Daien Calculations
Exponential Ultrasonic Concentrators 102
~Olysmln&, I-?- Us* Of F*rrltea ^fi, Ultrasonic-Wave Radiators 115
Semennikov, Yu.B., Engineer. Method of TrLwformih~ input R.vis.
t;wCW-of a f-B'Lr Radiator 125
._.2!ER_tY_LLk, R.G.. Engineer. Matching B, Genera-or of Electric
06c%_.l`lAtTMM-v1th a Quartz' Radiator 01racty C--ctd With th~
Generator Circuit 129
Characteristics or the Ultrbsonic machin-
-in& of Metals
Plaarev3
-.kly, A-M-o Candidate of Technical Ssiences;
--JC[Effq-v. _ZxP;ri~nca Gained fit the LnIngr1J3,!y M~tsllIcjj&aaj
Z&VOJ (Leningrad ?',,tal-Pmducts plLnt) 1. tr, tIltraionic
Drilling or Males In Quartz Plates 146
~D_'YAQ'1*n-kQ-r,Yd-, Doctor of T~chnlcal Sclecx~a.
Profeador;
.N. Xlzrokhl. L~glneer; and V.0. Averlyanoya.. r4ma Problems It% tj~_
VrtYi3drir0__YAchIninr, of 149
Teumin, I.I., Cmndld&t;e or prygical and Mathmatic,l Science3,
L'rfsct 4if 'Elastic Vibrations on the Crystallization " proc.331
Properties of Alloys he
163
B4gdA$ftrov,jCh,$,_; Candidate of chemical 3c1.cn&*x. Erfect of
Mtrasonfa Vibrations on the Process or ,!ryst&llj=atjOh 175
R.;LYhGr,jl).S_Car4idate of Technical Scl~ceq. Ultr&3onlc
lj;te tion 184
Ycrw-lqv--I.N,, Engineer. Ultraaonle In3truzents D~velopea by
TONXITMASh for the i4eazurement of Thickness and Product Contr,>l 211
XAPan-Ov ,M,R.. Candidate or Technical Sciences. Ultrasonic C"-
tee tleo Flaws In Massive Welds M
Inapection, of Case, Depth In Elactrically
-la-rdened Ste-11 Products .240
B&bkin~ NN.,Enrineer, Design of Piezoelectric Transducers ror
~M tr&30nlc Flaw Detector. 253
AUTHORS: Rozenberg, L.D. and Sirotyuk, M~Cr. 80V/46-5-2-13/34
TITLE: A Device for Producing Focused Ultrasound of High intensity
(Ustanovka dlya poluchenlya fokusirovannogo ul'trazvuka
vysokoy intensivnosti)
PERIODICAL: Akusticheskiy zhurnal, 1959, Vol 5, Nr 2, pp 206-211
(,USSR)
ABSTRACT: The authors review briefly the published work on high
intensity ultrasonic sources with and without focusing
(Refs.1-5). The highest intensities reporhed so far
(at 960 kc/s) were of the order of 1 kW/cm or 50 atm.
The prosent paper describes a focusing device capable of
reaching 60 - 70 k-W/CM2 ultrasonic intensities. The
device consists essentially of a radiator in the form of a
resonant half-wave spherical aluminium shell (radiuEs
314 mm;, angle of aperture o(M .700). The radiator was
excited by means of 200 small X-cut quartz plates stuck
to its back. The device is shown in Fig.1, where I is
0 ,
the sholl, 2 are the quartz plates and 0 is the focus
Cai~d 1/3 of the radiator. Fig.3 shows the external form of the
SOV/46-5-2-13/64
A-Device for Producing Focused Ultrasound of High Intensity
device. The working frequency was 500 kc/s and the
design voltage across the quartz plates was 7 k-V. The
plates were excited by means of an 8 14Y oscillator, whose
otitput stage used a GjiO-10 water-cooled valve (tube).
The radiator shell was filled with outgassed water and the
pressure distribution at its focus was found to follow
closely design predictions. The radius of t e effective
focal area was 1.95 mm, its area was 0.12 cm . With
3.6 kV applied to the quartz plates (half the design
voltage) the mean inteasity in the focal area was 6 kW1
OM2 and 18 - 20 MY/= at the centre of this area. The
authors suggest that with 7 kV applied to the quartz
plates an intensity of 60 - 70 kw/(,,m2 should be obtainable
at the focal-area centre (this intensity corresponds to
500 atm). Acknowledgments are made to V.P. She3ternev,
V.M. Petvtsov, V.S. Kachanov and V.S. Mikhaylov who
helped with the experiments. There are 6 figures and 12
Card 2/~ references, of which 7 are Soviet, 4 English, and I German.
SOV/46-5-2-13/34
A Device for Producing Focused Ultrasound of High Intensity
ASSOCIAT1011: Akitsticheskly institut AN SSSR, Moskva (Acoustics
Institute, Ac. Se. USSR, Moscow)
SUBMITTED: February 13, 1959.
Uard .3/3
SOV/46-5-2-27/34
AUTHOR: Ago tXuL, JA - _GT_~_.
TITLE: -Transformation of Acoustic Longitudinal Vibrations into
shear or Torsional Vibrations (Prevrashcheniye akusti-
cheskikh prodollnykh kolebaniy v sdvigovyye ili
krutillnyye)
PERIODICAL: Akusticheskiy zhurnal, 1959, Vol 5, Nr 2, p 254 (USSR)
ABSTRACT: The author describes a device for transformation of
longitudinal vibrations into shear or torsional vibrations.
The device is a metallic wavoguide whose diameter is much
smalle:, than the acoustic wavelength. This waveguide has
grooves out in it which deepen gradually and become a spiral.
Thu separation between two turns of the spiral decreasos
smoothly so that at the end of the guide the groove cuts
the plane end at a small angle. 6uch a device is shown
in the figure, and it can be used for welding of thin
metal sheets by means of an ultrasonic welder, model
4770 (Ref.1). For example, two sheets of aluminium of
0.1 mm thickness can be welded in one second using a static
Card 1/2 force of several kg.
SUV/46-5-2-27/34
of Acoustic Longitudinal Vibrations Into Shear or
T
Torsional Vibrations
There is 1 figure and I Soviet reference.
ASSOCIATIOH: Akusticheskiy institut AN SSSR Moskva (Acoustics
'Institute,kc- go. USSR, Moscow)
6UBMITTED: March 10, 1959
Card 2/2
SIR UIM, M. G.
Energy relations in a concentrator producing ultrasonic waves of
high Intonsity. Akust. zhur. 6 no.3:410-411 160. (MIRA 13:9)
1. AkustLcheskly institut AN SSSR, Koskya.
(Ultrasmic wav*s)
86 58
S)046/60/006/004/007/022
k0c) 0 (3 2-01, /6 9~F, B0119/B056
AUTHORS- Rozenberg, L. D., Sirotluk, M. G.
TITLE: The Sv'urid 11.'mli-,sion in a Li-quid in the Presence of Cavitation
PERIODICAL- . Akusti,~htak-y zhurna' , '~960, Vol , 6, No - 4, PP. 478 - 481
TEXT: Tht~ meRsurecienfu Aetonribed hers~ were carried out in a glass con-
tainer having a lmi-,.eter .-!' 110 1~,in and a lic,ight of d0 cm For the purpose of
fores ~al I., rig 'standing the. waf-~r was covered with a thick layer of
sound-ab2orbing re:iiri A R,,.agnet--istrictive vibrator of the type H)jr--4
(NEL-4) served as .3. scund measurement was carried out by means of V
a ba~imtitariatE:i pickup- A~~ ruay be 3e,~ln from the results shown in Fig~ 1,
the radiation resistEin-e at low intensitie-i of the 21 kc/sec radiation is
2
ristant arid has a 1,alu.-? ~f' R S 0 w ~, j9 re v and S are
Go
rad a m
h- a re a t hp .' rftte r the power irradiated into the medium, and vM the
velocity . With beginning cavitation, the radiFition
decreases to raugbly 30~6, and remains constant with a further
Card
8
The SOUnd Emission in a 1__~quid in the Prosenre S/049*0,7006/004/'007/022
of Cavikation . B019/BO56
T h-
raa d intensity at first grows proportional
at t~
to the square of lh~ aounj particle velocity, during the decrease of the
radiati-or r~sistan-,- of Oie 1 iquid the intr-nsity remains constant at about
I w a t t / C, fir and aga,-P. ~,;g
i,
Ln-j *o ia~~ with the square of the sound
particle velociry c~n z,~ir. oi the sound particle velocity above
~) r, r r,
rr
f&,. as compared with the
is 1/3
r'-, t -.;!:, thk.- 1-21'~en u;--d method of deter-
j.. rt~- L~, extrapolation of its power from the
I n w h L,~! r ur s - o t. ha t wbeir, i t do es . Th Pre f o 11 ow s om e
congidprat-innF roncerning t he finding of sound pressure spectrum. For this
p u.-r D,D!~ c-i rina r n and the annihilation of the
(7 a 7 1 t I ~-S M
jrj q, vjjrjj to time of' sound
p r 9 S u r e irt aj b:~ _iroai r:~!action of the medium to the
r-.~' .~- Wh u tlor thank-3 V_ P., Shesternev for 4-aking part in
the -?Xperiflj~-nts, "Ph-r, a-: 2 figures and 5 references: 2 Soviet and 1 US.
ASSOCIATIONt irstitu, At' SSSR, Ivloskva (Institute of
o" -.he All USSR: Moscow)
SUBMITTED: A,,ipgu~-t ';, 196C,
C ,., r d 2 // 2,
30056
S/046/61/007/004/014/014
I fto B100102
AUTHOR., Sirotyuk; M, G.
TITLE- Behavior of cavitation bubbles at high ultrasonic intensities
PERIODICALi Akusticheskiy zhurnal, v. 7, no. 4-. 1961, 499-501
TEXT: The author performed experiments in standing water by using 513-kA,~ec
ultrasonics. In the focus of the concentrator the ultrasonic intensity
2, hecked whether the intensity of
reached several tens of kw/CM It was c. ~L
the shook wave starts to decrease when the ratio 2".-/T exceeds unity, The
maximum bubble radius was determined photographically by using an '51-2
(MBS-2) microscope in connection with an ~'_"_"5 (MFN-5) micro-set, From
result s it follown that, up to a tension of 1.74 kv at the emitter, the
t i me d 0.0
- 'T of the total collapie of bubbles is equal to a half-perio ~ sound
(1/2T = 0.~97-10_6sac), If the emitter voltage exceeds this val-ae; the
irtensity of the shock waves formed by ~;he collapse of cavitation bubbles
will decrease. The shock wave intensity increases with increasing bubble
rad iu s DeSt!'UC~Ion cf aluminum by iltrascnics as a function of 2-/T
Card -12
r, lpC,,Er - - ~, - ,r;,
1:1 . 1, 1 :f- , ,I.
- , :-- --, ~, 1. 1
"Obtaininw, -.-dtras~~n--',: frec:len -- less of' c-7,cept, !,!, nterl~5 Itiles."
reucrt presented at -~iie inti S",Tip on Ultrasonics Application, Bratisiava, CSSR,
6-12 Sep 6~2.
Jap.~~)'.'TC:--.
- _. , ? f . A .
A soli d rescn,.nt, C. ,.,I c-7, fr:, ull tr. :,, I -.,---in_-:"
I
report sulf-i-A O,A fLl~ U*." 4, Cl 1" . _', 1 ! -7r of Accu-~, tica,
Copenho-een, ~_ m __'.
2-
Acoustic Institute of th, ~:~ 7 : or Cclerw_e U.S.S.R., 1-bacaw.
11
SIROTiTJK, M. G.
"On a double temperature jump associated vith the onset of cavitation"
report. submitted for the 4th Intl. Congress of Acoustics,
Coperff-ageny Denmark, 21-28 Aug 1962.
Acousl,ic Inst. of Aced. of Sci. U.S.S.R., Moscow.
S/1046 /062/006/001 /013/01, 8
B 12 5/10 04
UT 10 11 r0 Y
Si t-. k M G
I-
TITE'-': focussing ultrasonic solid-material concentrator
_-j'TCDICAL: Akusticheskiy zhurnal, v. 8, no. 1, 1962, 124-126
TEWTI': In some cases focu3sing of sound by means of solids with subsequent
transmission of the focussed sound into a liquid is more advantageous than
locussint; by means of the liquid to be studied. OwinC Co the existence of
man-i superfluous forms of oscillation the effectiveness of various
concentrators studied by the author is low. M. A. Isakovich (Akust. zh.,
196'-:, 8, 1, 13,1-156) proposed a sphere for the production of a symmetri -
cally converging wave front whose cavity contains the liquid to be studied.
The cophasal excitation of the surface of such a sphere, e.g., by a
Diezoelectric mosaic; produces purely radially symmletrical oscillations.
if "he diameter of this internal Cavity is the intE-ral odd moultiple of
the aumber of half-waves, then the maximum -iressure acts in the center and
the pressure node lies on the boundary of the cavity. The running wave
removes energy from the cavity. The amplification ff.ctor of such a
Card 1/4
- "U.6 062/006/Ocl /01 3/C1 8
A focussin.- ultrasonic solid- -012 5/3104
concentrator is, accordin6 to M. A. Isakovich (.A-k-L;st. zh., 1962, 8, 1,
13-1-156), Y = b/aE., where b and a are the radii of the sphere and7ofk the
cavitA respect-ive"Ly, and E is the tann-ent of the loss angle in the liquid.
Y
U V,
The author verified these considerations with an aluminum suhere which
Diezoelectric mosaic (radius: 100 mm, radius of the spherical cavity:
mm) had been tlued and which had two cone-3haped sections. Such a
resonator operates most intensively near the 18th harmonic of the radial
oscillations and somewhat less intensively near the neighboring harmonics.
The two series of peaks of the frequency characteristics of the concen-
trator with distances of -33 and ---100 kilo-cycles each belong to the
-adial oscillations of the aluminum sphere and the cavity respectively.
The frequencies are proportional to the numbers of the harmonics. The
dioa-reement between the resonances of the sphere and of the cavity which
strongly reduces -~he total amplification factor of the concentrator could
not be eliminated. But even without such an aareetment the amplification
factor for production of a cavitation in the cavity is sufficiently
larCe. At 543, 561, 593, 628, and 640 kilo-cycles the cavitation was
formed when approximately 15-25 v were applied to the piezoelectric
mosaic. The technically difficult measurement of the amplification factor
Card 2/4
S/046/62/008/001/013/018
A focussing ultrasonic solid- B125/B104
is not discussed. The Q-factor of the concentrator for a water-filled
cavity is ~11 = 59-3 and for an empty cavity Q2 = 85-
follows from Q and for the transformation
'-(-12 Q1f2/Y I 3(y1, 1 Q2
coefficient of the added power to the power scattered into the water.
L. D. Rozenberg and M. A. Isakovich are thanked for useful advice. There
are 7- figures and 4 Soviet references.
ASSOCIATION: Akusticheskiy institut AN SSSR Moskva (Acoustics Institute
of the AS USSR Moscow)
SUBMITTED:. July 7, 1961
rig. 6
Card*3/4
bY
3/046/62/008/002/010/016
B104/B138
AUTHORt Sirot.yuk, IA. G.
TITLE: Expei. 'imental study of the development of ultrasonic cavitation
at 500 kc/sec
Pi,RIODICAL: Akusticheskiy zhurnal, v. 8, no. 2, 1962, 216 - 219
TEXT: The development of cavitation was studied in stale water at room
temperature and in carefully degassed distilled water, using a super-high-
speed camera. The ultrasonic concentrator developed by the author and
L. D. Rozenberg (Akust. zh., 1959, 5, 2, 2o6 - 211) was used,and each of
60'successive ultrasonic vibration cycles could be photographed. In the
focus the mean sound intensities were between 2,000 and 12;000 w/CM2, the
pulse heights were 8,000 to 48,000 w/cM2, and the maximum pressures were
160 to 380 atm. The development of cavitation was studied with a micro-
scope and by listening to the cavitation noise received on a hydrophone.
Results: (1) Fo;7 stale water, which contains small air bubbles, the
cavitation threshold lies at 160 atm, for degassed water iVris6s-to~38W"
atm. (2) Cavitation does not develop in the center of the focus. It not
only requires high pressure but also a small number of nuclei. (3) After
Card 1/2
3/046/62/008/002/010/016
i,xperimental Ptudy of the ... B104/3138
one or several vibration periods a nucleus may be transformed into a
cavitation- region with a.diameter some tenths of a millimeter. This regi-on
grows from cycle to cycle, and after a few seconds its diameter is
several millimeters. L. D. Rozenberg is thanked for his interest. There
are 1 table and 5 figures.
ASSOCLMON: Akusticheskiy institut All SSSR Moscow (Acoustics Institute
AS USSR, Moscow)
SUBMITTEDi June 4, 1961
C~rd 2/2
SIROTYUK,,_14.G.
Ultrasonic cavitation; review. Akust.zhur. 8 no-3:255-272 162.
OUR& 15:11)
1. Akusticheikiy institut AN SSSR, Nbskva.
(ntrasonic waves) (Cavitation)
ROZENBERG, L.D.;j SIROTYUK, jq.c,.
A concentrator for generating high-intensity ultrasonic vibrations
at a frequency of I Mc. Akust. zhur. 9 no.1:61,65 163. OMM 16:5)
1. Akusticheskiy institut AN SSSR, Moskva.
(Sound-Apparatus)
S/046/63/009/001/026/026
B100166
AUTHORt Sirotyuk, M. G.
TITLE: International Symposium on the Utilization of Ultrasound
PERIODICAL: Akusticheskiy zhurnal, v. 9, no. 1, 19639 151 - 132
T~M; The Czechoslovakian Scientif ic- technical Society held a Sy;~iposium
on the Utilization of Ultrasound in Bratislava from September 6 to 12, 19621.
Besides the Czechcs1ovakian scientijts, representatives of 11 countries
at,ten"E!d tile SympcsiU3 (USSR, China, Poland, Hungary, Rumania,
FRO, -US~., France,
Austria). The membere of the Soviet delegation weret
0. 1. Babikov, A. IM. Ginberg, Yu. I. Kitaygorodski.,r, M. G. Sirc tyuk. 43
reports on Claw detection and on the utilization of ultrasound in imedicine
n Q
a
d biology were read. The Symposium was opened by a representative of
the Slovakian Council of the Czechoslovakian Scientific-technical Society,
I. Stanek, who emphasized the great value of Ultrasound Techniques in
science and indust.-ry. 0. 1. Babikov reported on ultrasound inspection
mcthods and instruments. M. G. Sirotyuk spoke on the generation of ultra-
sound vibrations of super-high intensities. S. Urban (Czechoslovakia) dis-
cussed the cleaning of semiconductor radio elements by ultrasound.
Card 1/2
S/046/63/009/001/026/026
International Symposium on... B104/B186
~Iagedorn (GDR) and I. Pav (Czechoslovakia) reported on the Polman-type
ultrasound whistle. I. Obraz (Czechoslovakia) showed a method to compensate
t!ie intensity variations of a reflected signal, which has great importance
in ultrasoand flaw detection. V. Payevski (Poland) investigated the
dependence of pulse duration on converter properties and material. M. Tatar
(Czechurlovakia) described new ultrasound therapy apparatus. I. Khasik
~Poland) and D. Kaiaotsi (Hungary) described ultrasound therapy of rheumatism,
~:;f gynecological d'.seases, etc. I. Grazdira (Czechoslovakia) reported on
alterations ir blood caused by ultrasound. S. Vellgos (Czechos)ovakia)
scussed the us, of ultrasound in stom.--itology. Vis-*ts were made to the
-,stftute of ','~~c,~,,arizat ion and. Automation in Nove' Osto nad V&hom, the
laoz)ratory of the Department of Physics of the Polytechnic Institute in
?ral7ue and tne Ultrasound Laboratory in the Factory imeni V. I. Lenin
(~koda).
Card 2/2
.~BDS/EWTQ~/EJ4
ACCESSION NR: AP3005636 S;/OO46/63/0O9/OO3/0395/0M61
M9 a,.
AUTHORt SirotZ~k
TITLE: Session of the scientific committee on supersonics
SOURCE i Akustichaskiy zhurnall vo 9., no- 3, 19631 395-396
TOPIC TAGS: supersoriics, emulsion, aerosol
ABSTRACTt A-,Lession of the Scientific Committee on Ultrasonit;s was g:~ n
Ae~
AEL1~_27-218, 1963 at the Otdeleniye fiziko-matematicheskikh nauk AN SSSR. The
meetings weR dedicated to the problems and processes involved in the formation.
of emulsions and aerosols in an ultrasonic field4\The session was opened by
chairman of th ientific Committee on Ultrasonics, who noted
that these processes are not fully understood, Nine other speakers read reports!
relevant to the subject of ap ultrasonics in sciencelgi techno
p1
y nE logy.
L
Several of the reports were folloved by,spirited discussions. The session ma;de.
it possible for the participants to analyze a number of controversial or poor'
ly!
understood aspects of the ultrasonic processes and to clarify the physical a6peo 411, t' 41j"
of these processes.
-ASSN: Division of Physics and Mathematics, Acader* of Sciences, SSSR
L~:_a_rd 1
-- --- - ------ ---
-L 3.?805-65
ACCESSION NR: AP4049296
SUBMITTED: 22,Tan64 -00
~ZNCL:
NR REF,SOV: 005
12UB CODE: GP OTHER:. -_-"003,:..;
(:ard
3/3
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AUTHOR: Sirotyuk, M. G.
ORG: Acoustics Institute AN SSSR, Moscow (Akusticheskiy Institut
AN SSSRY_
TITLE: Cavitation strenatb of water and the distribution of the
cavitation-nuclei In it
SOURCE: Akusticbeskiy zburmal, v. 11, no. 3, 1965, 380-386
TOPIC TAGS: cavitation, water, acoustic theory
ABSTRACT e author presents the calculated dependence of the strength
of the l4us-ld on the radius of the cavitation nuclei contained in it
kin the form of bubbles or solid non-wetting particles), and the fre-
quency dependence of the cavitational. strength of water whicb-is de-
rivable with dependence. The formulas derived are checked against ex-
periments on the determination of the number of nuclei per unit volume
of stagnant distilled water, in which cavitation nuclei are produced
by focusing concent,rators, as described in earlier papers by the author
Nith L. D. Rozenberg, Akust. Zh. v. 5, 2, 2o6 -- 211, 1959 and v. 9,
1, 61 -- 75., 1963). The method. of determining the cavitation threshold
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was similar to that used by D. Messino et al. (J. Acoust. Soo. Am.,
1963, V. 35, 10, 1575 -- 1583). The reasons for the large discrepancy
between values obtaLned by different investigators is discussed.
.It Is
concluded that the distribution of the cavitation nuclei in the form of
bubbles or solids is quite uneven in distilled water with the number of
nuclei of small radius (less than 10-6 am) approximately 105times
larger than the number of large-radius nuclei (greater than 10-4 am).
Th-LB unevenness leadi s to a dependence of the cavitation strength of
water on the volume of the irradiated liquid. Failure to take this
distribution into account has caused the great discrepancies in the
results of various authors. Author thanks L. D. Rozenberg for useful
advice. Orig. art. has: 3 figures,,.3 formulas,,jand 2 tables.
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AUTHOR: Sirotyuk
ORG: Acoustic Institute All SSSR, Moscow (Akusticheskiy institirt AN SSSR)
TITLE: Effect which the temperature and gas content of the.fluid have on cavitation
.processes
~SOURCE: Akustiche!skiy zhurnal, v. 12, no. 1, 1966, 87-92
.TOPIC TAGS- cavitation, shock wave analysis
ABSTRACT: The author determines the intensity of a shock wave from the cavitatioX
damage to a small aluminumn"41,linder placed in the cavitation zone. The relative in"-
,tensity of the sho--k waves produced by cavitation bubbles was evaluated from the
difference in weight of the cylinder before and after cavitation. The experiments
.were conducted at a constant acoustic pressure and various temperatures in ordinary;__
.water and in dega&:;ed distilled water. A ferrite transducer was used with a fre-
quency of 28.5 Kc and -an intensity of about 2 W/cm?. It wa!; foun-1 that the inten-
siLv of the shock wave which accompanies the collapse of ca-Atati-)n bubbles may be
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ireduced by decreasing the temperature and gas content of the liquid. This reduces
:the pressure of the vapor-gas mixture inside the cavitation bubbles and attenuates
:tthe damping effect which accompanies collapse of these bubbles. According to
Khoroshev, the following expression may be used for determining the pressure of a
~shock wave which accompanies the collapse of an actual cavitation bubble in water
Icontaining a vapor-gas mixture:
6 P,
PM=P
Z4
:where P is the hydrostatic pressure, P is the pressure inside the bubble at maximum.
n
,radius R and Z= R
n/Rm is the dimensionless minimum radius of the bubble.
max mi ax
mThis formula agrees satisfactorily with the experimental data obtained in this pap-~
er. Cavitation damage to the aluminum is a linear function of the intensity of
.Shock waves and may be used for a relative estimate of this intensity. Lumines-
cence and chemical 1reactions due to oxidation of ions take place only when there is.__'_-
.gas in the cavitation bubble. This shows a direct relationship between luminescence
and chemical reactions which may produce radiation. Luminescence brightness for a
:given sonic pressur4? increases with the air content in the cavitation bubbles, whili--'
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the intensity of shock waves decreases. Luminescence brightness and the yield of
oxidation reaction products are not always an objective characteristic for the in-
tensity of shock waves which accompany the collapse of cavitation bubbles. OrIg.
art. has! 6 figures, 2 formulas. (14)
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AUTHOR: Sirotyuk, M. G.
ORG: Acoustics Institute, AN SSSR, Moscow (Akusticheskiy i"titut AN SSSR)
TITLE: Evolution of the processes of ultrasonic cavitation at increased hydrostatic
pressures
SOURCE: Akusticheskiy zhurnal, v. 12, no. 2, 1966, 231-238
TOPIC TAGS: cavitation, ultrasonic effect, pressure effect, shock wave propagation,
water, luminescence PoCeS_YuRE
ABSTRACT: This is a continuation of earlier work (Akust. zh. v. 12, no. 1, 87, 1965'
and earlier) dealing with the relation between shock waves and cavitation bubbles ii
a liquid. The present paper is devoted to experiments on the determination of the
dependence of the intensity of the shock wave during the collapse of cavitation
bubbles on the hydrostatic pressure. The experiments were carried out in stagnant
distilled water at 230, using a focusing concentrator described in an earlier paper
by the author (Akust. zh. v. 8, no. 1, 124, 1962). The results hLve shown that
when static pressure increases the pressure in the shock wave during the collapse
of the bubble can be raised by a factor as high as 200. The change in the pressure
is due to the decrease in the air-content parameter, defined as the pressure ratio
at constant temperature. Experiment has also confirmed a conclusion reached theo-
retically in the earlier paper that tho luminescence brightness increases with in-
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creasing air content, in the cavitation bubbles. The increase in pressure during
the final stage of collapse of cavitation is in satisfactory agreement with an
expression derived in earlier work. The author thanks L. D. Rozenberg for a dis-
cussion of the results and also 0. N. Shumilov for help with the iiaiiiments.
Orig. art. has: 8 figures and ff -formulas.
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Pli"TIONCIV, V.A.; KLE"ENKO, Z.G.; SIROTYUK, O.A.
"
I I u
'fe,2t of the phase- composition of cement stone on -ts mec~-arliral
strength. Dokl. LPI 5 no. 1/2:156-160 163. (MIRA 17:6)
SI-ROr.I'YI,.IK-Ojj DIE AT, R. N.
. n
Cand Med Sci - (diss) "Childhood ocular traumati= and measures
for iLs prophylaxis. Clinico-mor hological study)." Z7uybysfie~7,
1961. 1~ pp; (Kuybysnev Med Inst~; 250 copies; price not given;
(n, 6-61 sup, 24Cj)
SIROUS, I.K. (1hiepropetrovskaya obl. )
Graphical oolution of qudratic equtions with the aid of a
circle. Mat. v shkole no.6:70-71 F-D 159. (MIRA 13:3)
(Zqaations, Qmdratic)
S I BOV, A, A.
"Ground Photography," 1952.
SIROVA, D. ; BUIAR, M.
"Sirova, D. Contribution to the methodology of microbiological analysis of
cardboard, parchment paper, and other paper wrapping materials. P. 553."
Vol. 6, no. 11, 1955
Monthly list of East European Accessions (EEAI), LC, Vol. 8, No. 6. Jun 59 unclas
CZEGHOSLOW,KL~ Microbiology. Sanitary MicrobiologY- F-4
A.lbs Jour: Ref Zhur-Biol., No 16, 1958, 72067.
.,author :BoLaar, 14. ; Sirova, D.
Inst :Not given.-
Title :Influence of Microflora of Wrapping Paper on the
Spoilage of Butter and Oil Products,
Orig Pub: Obaly, 1956, 2, No 1, 14-18.
"bstract: During the investigation of parchment paper used
for wrapping oil products, there were found in
almost every case sporogenic bacteria, micro-
cocci, in separate cases Protous vulaaris, Pseud-
omonas sp.. Bact. flavum, as well as molds TP-en-
icilliu-ra, Al SF-rgil-1_577 It is proposed to dis-
infoct the paper. The author considers the quan-
tity of mold spores per unit of surface to bo an
indicator of the quality of the papoi. The nua~bcr
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SIROVA, N.N.; VARIKASII, V.M.; OVSEY(;IIUK, E.A.
Tnt.ensity variation of Bragg's reflexes at the Curie point in
triglycine selenate. DokI, AN BSSR 8 no-4:220-222 Ap 164.
(MRA 17:6)
1. Institut fiziki tverdogo tela i poluprovodnikov AN BSSR.
SIROVA. N.N.; SHELEG, A.U.
Dynamic atomic displacements. coefficient of linear expansion,
and characteristic temperature of silicon. Dokl.AN BSSR 3
no.10:403-404 0 159. (14IRkL 13-.2)
(Silicon)
SIROVA. 0.H., akademik, otv.red.; BIMOV, K.P., prof., red.; KOND01LIZIT,
Te.I., prof., red.; POLIVANOV, X.M., prof., red.; T.&L3SNIN, R.Y.,
prof., red.; SHOLOSKIT, G.A., prof.. red.; SH(MITS. N.H., kand.
fiz.-mat.nauk. red.; SKOLTARENKO, E.M., red.; RASHKIROT, L.A..
red.; KHOLTAValY, S.. red.i2d-ve: VOLCKHAROVICH, I., tekhn.red.
EFerrates; physical and physicochemical properties] Ferrity;
fizichaskie i fiziko-khimichoskie svoistva. Doklady. Minsk,
Izd-vo Akad.nauk BSSR, 1960. 655 P. (MIRA 1):11)
1. Vsesoy-uznoye soveshchaniye -Do fizike. fiziko-khimicheskim
svoystvam ferritov i fizicheQkim osnovam ikh primeneniya.
2. All BSSR (for Sirota).
(Ferrates)
TOIT, R., Doe. Dr.; SIROVA, S., Dr.
--~*
Insulin suspension. Us. lek. cook. 93 no.40-41:1oq4-loq6 8 ict 54.
1. Z II. Inter. addeloul nemocnice a& Bulovce. Prodnosts, doe. Dr.
FOR
(INSULIN. therapeutic use
insulin lonts)
(DIA22TR NNILMS. ther.
Insulin lents)
FIDIT.R.; SIROVA,!~t,
Pulmonary paragonimiamis. Cas. lek. cesk. 99 no.28.-894-896
8 Jl '60.
1. 11. interni klinika fakiLlty detskeho leimratyi v Praze.
I
prednosta prof. dr. R. l6it a II. interni oddeleni nenocnice na
Bulovee.
(PARAGONIMM infect.)
(IUM DISMSM case reports)
LALATANTS. A.M., redaktor; ABRARYAN, A.A., redaktor; GUBERRAN, I.D., redaktor,
DOKUNIN, A.T., redaktor; ZASADYCH, B.I., redaktor; ITANENED, G.I., re-
daktor; LXTOV, N.A., redaktor; MEIAM, Z.M., redaktor; LIVSHITS, I.I.,
WKSHIN, V.A., redaktor; MOKIN, G.I., redaktor; SUMCHINED, T.A., redsk-
tor; TOPCHIYEV, A.V., redaktor; SHEVALDIN, A.S., redaktor; :~
U, V.A. ,
redaktor; ANDREYNY, G.G., tekhnicheskiy redaktor; nOZOROYSIMit" P'-!
tekhnicheskiy redaktor.
[Materials and equipment used in the coal industry; a reference sannaij
Materialy i oborudovanie, primeniaomye v ugollnoi promyshlennosti;
spravochnik. Moskva, Ugletekhizdat. Vol.l.[Naterials] Raterialy. Pt.Z
1955. 544 p. (MIRA 925;
(Coal mines and mining--Equipment and supplies)
u.;FUJTIK, K.
Vevelopment of Mining and the Life of 1141ners in the Kosice and Oslavany
Ireas in the First Half of the 19th Centary." P. 3,
(CESKOSLOVENiIv,.A ET4NCY',IbiF.W,, Vol. 3, No. 1, 1955, Praha, Czechoslovakia)
SO: Vionthly Liit of East European ACCOS3.1ons, (EEAL), LC, Vol. 4
No. 5, May 1955, Uncl.
SIROVATKA 0.
GEOGRAPHY & GEOLOGY
PERIODICAL: CESKY LID- Vol. 42, no. 5, 1955
SIROVATKA, 0. A conference of Moravian researchers on folk songep p. 236.
Monthly List of Fast 1hropean Accessions (EEAI) LC, Vol. 8, No. 2, Feb 1959, Unalwo
SIROVATKA, 0.
GEOGRAPHY & GEOLOGY
PffJODICALF CESKY LID, Vol. 42, no. 6, 1955
SIROVATKA, 0. Research on folklorelin the region of Rosice-0slavany. p. 257.
Monthly List of E"t 1kropean Acessaions(EFAI) LC, Vol. 8, No. 2, Fab 1959, Unal"s.
STROVATIKA, C'.
Conclusions fro- investi-7ation an6 experiences in the field of wo?