SCIENTIFIC ABSTRACT ZLATOPOLSKIY, A.N. - ZLATOVEROV, A.I.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R002065310011-2
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
March 20, 2001
Sequence Number:
11
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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ZLATOPOL SK_XL#,AaJIw#--kand at ekhu a nauk
Iffect of boiler-unit characterlatice on the cost payable distri-
bution of active load between thermal electric -power plmtoo.
Zlek.sta. 29 no.8:6-8 Ag 158. (MM 11:n)
(Zlectric power plants)
ZLATOPOLISKIY., A.N.p kand. tekhn. navk; PRUZNFa, SLLOO kand* tekha. nauk
Perspective load graphs of a steam power pl&Ut an4 affect of the
operating modes an the selection of the parazaters, of steam turbine
systems. Trudy ICI no.48s119-131 163.
,,ZLATOPOL'SKIY, A,N., kand.takhn.nauk; PRUMER, S.La., MM to khn. nauk
SA71ANOVI BoV,j, kand.takhn.nauk
Evaluation of economic effectiveness of the use of secondary
power resources, Prom# Onerg. 20 no.lli7-11 B 165,
(MI RA 18 13.1)
NEKRASOV, A-leksandr Semenovich; SIN!fAKl Yuriy Vladindrovii-h;
ZLATOPOLISKIYj A.11.g red.
[Economic aspects of power engineering for beatins; process-
es] Ekonomika energetiki protsessov nagrevm* Foljk7v"L
Energiia, 1965. 134 Pe Old itA *i 8
ZLAMpQ~tSKIyt A.1-f.; ZA"DSKlYp I.M.; PRUZNERp $.L*
"Effective use of secondary paver resourcds"~by N.M.
Vilenskii. Reviewed by A.Mlatopol'okii, I,M Zavadskii,
S.L.Prumer. Prom.energ. 19 no. 4:60-61 Ap 1&4.4 (MIRA 17:5)
ZIATOPOLISHIY, A.R., kandetekhnonauk
Optimtm distribution of the active load of an el6ctric power
systan between thermal power plants and hydroelectric power
stations. Slek. sta. 33 no.5:36-39 MY 162.. ~ (MM 150)
(Interconnected electric-utilitY~sys~i~6~)
ZLATOFOL-SKIY, A.N., kand.tekhn.nauk; PRUNER, 4,L. k&v4IA4!khn.nauk
Use of digital computers in calculating theIrzost,advant2geoiis oper-
atio n conditions of the electric power plant in a~power systen.
Teploenergetika 9 no-3:9-14 Mr 1624 WRA 15:0
1. Moskovskiy energeticheskiy institut.
(Electric power plants) (Electronic digital computers)
UATOPOLISKIY, A.H., kand.tekhn.nauk
Optimum distribution of the thermal load of! ahe,4t~'and eleattic power
plant between separate turbogeneratorso Ei~k. sta.' 32 no.11:211-
28 N 161. (MIRi 14,11)
(Heating from central stations) (Electric power plants)
(Turbogenerators)
ZUTOPOLISKlY, tekhn.
Use of comiputar,-t In :-,elect-ing, th,- of
oc:'S"gn C.'. .11-ct.,
generaLing equippent J-1 f,np rj '
-,.aploenergetika 1.1 no.9.*22-25 S I A 4.
T
APUSHKIR G.V., inzh.; BAOIROV, D.D., inch.; UATOP6LISM
A*V*j inshe
Foreign engines of oonstruotion and road jmjohlzb~ shown at
the Intemational Exhibitione Stroi, i dot. mash. 10 no.8i
12-1) Ag 165. (MM 1819)
insh.1 BAGMOV, D.D., insho
-77=
Requi"mento of Intorma combuatio-m. angiroo"XIr copstruation &~d
road machinery. Stroi. i dor. mah. 065.
(MMA lgtlO)~
ILATOPOLISKlY, D.Ift
rowth
Obrazovp,niye I Razvitiye SSSR Kal, Soyuznogo YosLdarstva (Tievelopm.ent, and
of the USSR As A United State) Yoskva, Gos. 1--d-vo Yurldlchti!skoy Ut., 19--4.
221 P.
30~ N/5
102.13
ezi ~ C V
ALITSHULXR. Z'**Ye., inch.; BASTUNSKlY., N.A., inch.; ~OSTXLI, lnt:h.;i
BIJUNBARG. I.E., jnzh.-~ BOGOPMKff. B.Kh., Lnzh.:' BUKURIX,. 6.1.r
Insh.; MSHTAYN, B.G.. insh.; (HIRSHM, L.N., 14ah.; RRYn, G~1.9
inch.; DIMSHVITH, A.G., intho; irnh.;. XYANM.
A.V., inzh.; K02;I11, Yuj., inch.; I&VITIN, LP.. Wh.; K&LIMIKOVi
L.F., inch.; MLIKUHOV, L.G., Inch..- 1MUL"A M.B., Insb.; PAtOVI
N.A., inch.; PASUU, D.A.. inch.; PISIN. Mo., inzh.; PYATKOTSKIT.
?.1. 9 inch.; RAZ "NOSCRIKOV, D.T., inch.; R02NNOY120 G.Ya., iach.; ;
ROZMERG. R.L.. inch.; RGY~79NBNRG. N.L.. Insh.; RYIBI14SKIY, ts.14,
inzh,; SYPCHINK0. I.I., inzh.; TABACHNIXOV. L.D., inzhe; FNVDRANI
A.S., inch.-. SHTRAEIMN, G.Ya., inzh.; ShVIURGAS. U.S., insh.;
JAVITIN. I.?.. otvatetvenW red.; STELIKAKH, A.M., red.1cel-va;
RUXICTin, O.G., tekha.red.
[Overall mechanization and automatization of production processeslin
the coal industry] Koaplekanaia makhanizatsita i avtomatizatelia
proizvodatvennVkh proteessov v ugoll not proqrohlena6sti, Pad 1red,
IU.V.Koziida i dr. Moskva. Ugletakhizdat. 1957. 82.p. (KIRA 11:3)
1. Gosudarstvannyry proyaktno-konstruktorskiv inatitut. 2. Inatitut
Giprougleavtomatizataiya i Takhaicheakogo Up~mvlanlya kiniato~r'stva
tW,ollnoy promyshlonnonti (for all except; Levitin,: Stellcakh,
Bakker)
(Automatic control) (Goal mining zwchiniiry)
!ACCESSI(V NRI AP4040301 5/0067/0"34/006/1,006/2.010
I'AUTHORt Ks3zy*kovrA.A.; Trubch&nInGv1S,A.; Naboka,
TITIZ: structure and energy spGotra of plassa'bursto from a coexial plas" gun
SW=- Zhurnal tekknicheskey fialki., v.34, no.6, 1964, 1005-1010
TOPIC TAGS: plasma, plasma source, plasma jeto plasma concentration.
ABSTRAM The mass and energy speatra of the ions In ursts trou 11 co
Ial -plasma - gun- were determined with:a time!-of flight wM* --I etar~60_:elqictrop-
tatic analyzer described elsewhere (A.A.Kalayflcov,. A.Do'~i*,06~43t al 0M,R4.50
14211963). The attenuati3n of 3 -cm and 8 ma microwaves by theT bursts was'Oso zob-
;served, and the visible radiation was recoided with a ph6tomultliplier. The plisma
Igun. was 17.5 cu long, and the coaxial cylindrical electrodes were 3 ad 705 ca In
diameter. The gun was jxmered 6y a 12 microtarad capacitor charged to 10 to 20 W ,
3
land the period of the circuit was 7 microsec. Approximately I at hydrason (stan-'_
dard conditions) was admitted to the gtm through a pulsed valve, Two quite diffe-
rent modes of operation were noted, depending on the delay betweenadmitting the
Ps and f IrIng the guns When this delay was greater than a certain critical V44U01
1/3.
wd
A
".7
lAOMSION NR: Ammm
s
is single dense burst was e ected at a velocity of about 107 cm/Sec. The deh: Ity of
this burst Was at least j014 CM73,but it contained no Laos With energies C~Gater
than 100 eV. The operation under these.conditicas was not investigated in details
.,but it appeared to conform to the theory of L.C.Burkhard and CH.Laveberg j(phrS.F
~jlds 53,341,1962). When the delay was less than the critical val u4, two bursts were
lejeoted, of which the inore rapid had a density of 1013 co"3 and contalneJ ,ions. with
!energies up to 20 kdV. The energy srActra of these bursts varicl only slightl~~When
ther operating conditions were changed, provided only the delay time remained less,
Ithan, the critical value. The Ions were all accelerated simultaneously (within .0.6
Imicrosec) during the first half cycles The moment of origin of the ions was marked
by a slight but very sudden decrease of the discharge current,,occurring near the
ifirst peak. Heavy lapurity/ions, presumably originating In the Insulation and the
valve packing , were present In' come Iderablo numbers, Theme had the same energy. dis-
tribution as the protons, and hence smaller velocities. The burst could therefore I
iprinciple be purified by permitting it to drift a sufficient distatwe. In the ab-
sence of a magnetic field (all the work reported was performed:wIth no longitudinal
magnetic field) nearly all the low energy ions, and none of the high emrg.y ionso
were lost during traversal of one motors This is presuambly due to the better colli.;,
imation of. the high energy low* ~At I& suggested that the difference betvvqm the
I Card 2/3
!zaodes of operation Is due to the Interaction of the charged particles at high1doni.
sities: when.the delay time is short tho density is noderat,e'Aad that parttaled aft
accelerated essentially individually; when the delay t a
Ime I long the density Is
sufficient for the Interactions to become important, and ther may be taken Into
account by a magnotohydrodynaale theory such as that of Burl:hard MW Loveberglloc.
-!cit.)* "In conclusion, the authors consider It a pleasant dmty to expreas their
gratitude to B.G.Safroaw for fruitful discussions and his intereat in the woea."!
Orig.art.has: 6 figures wid I table.
ASSOCIATION: none
am 2Wul63 DA= ACQ: l9junG4 MM: 00
SUB C=1 Us
MR MW SWs 003, OTURt 0021
;Card 3/3
-7
'J.'; A.
LIM0 k,tU
KALMYKOVp A.A.; TIM4FEW, A.D.; PAWRAT E, V YU*Xo; Te
VMFIiCIIAGIN, V.L.,- ZLATOPOL18KIYV LoAe
Method for measuring tho onargy and nuiwo lrpoctalwo or the id n
component of a moving plasma. Prib. i tekh. oks.p. 8 n0-5:142-
145 S-0 163* OMRA 16: 12:)
1. Fiziko-tekhnicheskiy in-9titut AN UkrSSR,
ZLATOFOLISKIY, M.Ya.
AF5 semiautomatic milling-machine unit. Bio.I.W:h.-lehonAnform'
Gos.nauch.-issl.inat.nauch. i tekhjnform. na*,,I;26-f'-27 163.
(Milling machines) (14MA 3.414)
BABCHINITSM, N. I.; KOWSMOT-A, L.A. SENCHISHCHRY, &Ati_g4,TlDPWS~lj,_ N.A.
In base organizations for standardizations.Standar:tizatslia, 24
no.9:IA-45 S 160. (MLU 13: 09
(Standardization)
7 *- 1 YV
mom, I.M., keXAidat teklmicheekM nsxk; SMWAV,'a A.. 16,71reat
Stallaskoy prenti, dok-tor t*kW cb6skM n=ks praesear, retisenne,pt;
SORCIAV, N.P.# professorg, reteenseat; ArMMANITAJITS, N.A., inzhener,
retsensent: ZLOMPOLISM. K.D.. kaadidat tekhnioheakikh nauk.
redaktor; redaktor
(Dealga of gpeciallied automatic and semi-&ntonatie na~blaevl Iron-
struirovarAe spetsiallsiroyawqkh stankov-&Ytomatav i poluavtonatov.
Kaskra, Goo, nauchno-tekhn. lvd-vo mashinostrott. lit-ry, 1952,
260 p, [Kicrofilal (KRA ?:10)
(Kachlne tools) (Mchlnex7, Antemst1c)
ACC
AUTHOR: Ziatcooll 8MI, M. Ya.
090 t none
TITLEt Operating experience with an Sq magnetic flaw deteat4r.
SOME: Byulleten' tekhniko-ekonomichaskay U=AlataUt noo.12,, 1965# 40-42
TOPIC TAGSt flaw detector, flai detection
ABSTRACT: General features are given of a now Sq nagnetic flaw detector develoged
at the Darikov "Siscle and Hammer" Engine-Building Plant and intstdod for 4U&litY'
control of diesel-engine cranksba;ts. The test qrankshairt Iscoverad with a
suspension k2O-40 g of a ferromagnetic po~waer per I liter of kerosine or transformer
oil) and magnetized first longitudinally and then alroularly, The nAW are detected
by the patterns of the magnetic powder. Two sketches of the onitfiVare presented.
These characteristics are reportedt. magnetic-field strength In longitudinal
magnatizationg 10000-12000 gsl current in circular tization, MO ampi voltagap
7 vi tail-spindle travel, 18 = (Me), 10 ma (working prodactivity,, 5D specinens
per hour. Orig art. has 1 2 f igures
SUB CODE: 139 09 SM D&TE: none
.Card Ill UL)Q: 620.1790
MIATOP01,1101KIT M.Y'li., tnzh.1 R0,11AWN, G. 11, inzh.
Modernization of autornatle machine-tool lirie,!t. Maskii-lostroenle:
no.5g54-55 S-0 (MIR-A 18-.9)
rZ,'LATOI-OLI;KIY, M.Ya.,
Sordautmatic machine for simulta"Ous 9crowily- of t4in, dowe la.
Ma shin os tr nie no.lt28-21) .1a,.F 165. OURA 18:i,~)
ZLATOPOLISKITP M.Ya.
Machim tool for grinding and lapping =vujiq tools with syntbatic-
diamond griuding wheebe
iust.naucb.i tekh.infom. IS no.1230-31 JA 065.
(MIRA 1844)
ZLATOPOLISKIY, M.Ya., inzh.
Semiautomatic eight-spindle drilling machine uxiit. Mpshinostroanie
no.3-25-26 My-Je 164. (MIRA Vill)
ZUTOPOLISKlYt M.Ya.
The AS-42 automatic drilling machine. Biul.tekh.-ekom.inform.-~
Gos.nauch.-iss1.in3t.nauch.i tekh,infom. 16 no.?i.4-25 163.~
(MM
(Drilling and boring machinery)
ZLATOPOLISKIY,, M.Ya. .
The B-4 food bunker. Mashinootroonia no.303-94, lfor4e 163.
(Food machanieds) (HIRA 16 t7)
ZLATOPOLISKIY M.Ya., #zh.
~. jr mn(!hine. Kashio-
Special,purpose sait:,automatid ft*4,Arothdle millin
nostroenie no-4:28-26 il-Ag 16.3. (MIRA 17 t 2)
1. Kharlkovskiy zavod "Serp i molot".
ZLATOPOLISKIY, M.Ya.,.Inzh.
Automatic line for machining ^djugting scraw3 of.diesdl-engine
valves. Mashinostroenia no. 2tl6-18 Mr-Ap 164, (MIR-A. 17 5)
nATOPOLISKIY M.Ya.
The ASh6 semiautomatic asaembling machine. SiuLtekliI.-akon.
inform. Gos.nauch.-isal.inst.nauch.i takh.inforth. 17 no. 51
37-39 Vq 164. (MYRA l7s6)
2'
ZLITOPOLISKIY, M.Ya,, inzh.
A new automatic polishing machine, Traktat oalIkkinimash.
no.8:43 Ag t62. (PIIRA 15:8),
(Girindi'ag and polishing)
ZLATOPOLISKIY, M.Ya., inzh.
Automatic line for machinDig the plungers of the SMD-.14 diesel
engine. Trakt. I selfkhoz-mash. no.4%43--45 Ap 165. (KERA 1835)
ZLATOPOWSKI-Y, M. Ya.
Introducing the S9 magnetic flaw detector. Bbil. tokli.-ekon.
inform. Gos. nauch.-issl. inst. nauch. i tekh. inform. 18
no. 12.--40-42 D 165. (14M 19: 1)
ZLAT',,U'Ml: Y.-I
A* A
cif c'w LArl 1"
live-r di~oaso:;." Cn!or
(Diss, or f,~: ons ('cjr o an c ida -'o orl
J: 0l
'rnizhnaya ci C", Nw, o"
LUXITANOT. V.I.;, 14MIN, T.A.; SEWTIROT. A.I.; KHOM02, A*Ya.,*
SKIT, K.S.; KIELINIKHOTA, O#K.; PLESEMOT, Lje,; OMAN, Y.T4;
,-MATCLIKSXIT. V.M*; VISMAT IT$ FL.; LAPSMACT, P.(;.-. KAJ30V#
H.S.; .1MVISMI, I.D.; LTH13, C.P.; XOMWINOT. O.A.;
USKIN, G.N.; MORM, B.B.; TURANOV, N.S.; SEMRTAIINOV, S.M.;
VOLKOV, M.G.; NOTMOT. P.G.; MUMM. G.T.. irAth., red.iod-va;
GELINSONO P.G., takhn.red.
[Designing chief plans for Industrial plants; principsl methods)
Preektirovanie generallufth planov promyshlawykh prelpriiatii;
oanovnya polosboulia. Koskva, Gos*Izd-vo lit-ry po stroit.,
arkhIt. I stroit.materialamg 1960. 103 p.
(kM 13.-6)
1. Aksdeniya stroltellstva 1 arkhitektury SSSR. Institut grado-
stroitel'stva I rayonnoy planirovki. 2. Hauchmo-lusladovatel'skly
Institut gradoetroitelletya Akedenii streitelletva i arkhitektiary
USSR (for Khorkhoto Telenekly. Mellnikhova). 3. GostdarstvenW7 In-.
stitut proyektirovanlya astallurgichaskikh vaivadov (Gipromsx) (for
Plashkov). (Continnod, on nazt card)
ASKAWUOV, Veniamin Vasillyevich, daktor geologo-uluoral(igichekikh neuk--
TOKIIIO Anstolty Nikolayevicho inzh4; G4;RGaKOV, A.Y., Otvetstvej3cpt
red.; PAIIASIUMOO A.D.. kand.tekhn.neuk, nauchuyy r(jd.-4IATOTSV MLVAP
I.I. red.; VASILUVSKIT, B.A., tekhn.red.
[Buildings and installations of soil cement] Zdsniia t;!,9ooruzhanifA
iz tooneut runta. Hoekva. TSentrobiuro tekhnslaCorm., 1957, 111 P,
Toll cement) IMMA 110)
PER ISHTM, N.L., obehahly red.; DRUMININ' 13.1T., jtj~ten4t:
nauchW., red.
CHOMASMIN, T.G.; kand. telihn. ~=k# uauchuj~j! red.;' 0 W-111SK Ti
TO*irot [deceased], Insfiener.'riid.; 1KKMUMM,AoO.. ka114. tekhn.,~uattk,
red.; RAFALOTIGH, L.A., in-shag red*; GORGffaOVp A*Va, otv9tgtvGn37
red.; ZLATOTSTMTA, I.I., red,; VASILOSICIT, D,A.. telkhn. red..
[Using prestressed rel~forced con6rete: based Gn*data from the Secaid
International Congress, Amsterdam, September 1955) Brizenanie
napriazhenno armirovannogo shelosobetona; po zmterlqUm Vtoroso
me-zhdunarodnogo korgressa. (g. hasterdam, esntiabrF 1915 g ) KboLva,
1957. 322 p. (WiA jOtU~
11 Russia (1923- U.B.S.R.) Kinisterstro, stroltollet'Ou. TelftaiewaknTe
uprarlenlys. Z, Mentrallnoye byuro takhnichawl:*7 111formteli (for
Zlatota"tova). 3. Chlen-torrespon4ent Akmdenit str6itelletva, i~
arkhitektu;7 (for Fevellahtsyn),
(Amsterdam--Prestressed conerete--Conginases)
1114
S/08~)/62/012/006/01~9
1019.
B 1 62/v 104'
AUTHORS Gimel'shteyn, I. stoy
TITLE. A new multichanne ner for powerful radiation sburces
PERIODICAL: Atomnaya energiy no. 6, 1962, 557-556
TEXT: A container of the tYpe 8409 00 KI) was designed and built in
the "Latvanergo" plant for the t-v., ion of 12 radiation sourcea.having
a total activity of 8400 g-eq Ra. tainer is a lead-filled barrel
with twelve channels that receive ve substancea. The containeir is
closed by a lever mounted at the tubular axis. A.special opening
is at the bottom. The total weigh container'i
a - 2370 kg. The
dose rate reaches 18 mr/hr, on its and 0.56 mr/hr at a distance Of
I a. There are 2 figures.
Card 1/1
SHYTAKOV, Alskisey Andreyevich; KAMENIIIKOT, MoK,:Vrof.,~doktor telft.
nauk, retsenzent; SUTOUMOT S 7 doteent, retsensont; KOKOffPT,
P,A., doteent, retnenzent; TAROYSKIT, I.L., Ixizh. rod.- KORC=VA,:
P.B., izdat.red.; ROMIN. T.P., takhn.red.
(Automatic contrnI of airplane power plants) Avtom'tiks avi4toion-
nykh isilovykh ustanovok. Hosk-va, Clos.isd-v6 obor.promys.hI.O.1960.1
372 p. (HIRA l3i*2)
(Airplane a-FIngines) (Automatic control)
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KOZLOVO M.N.; SKVORTSOV, V.V.; OBYSOVO A.R.; OSIPHHKOr:1U.x.:rv.
KHOKHLOVO B.A., glav. r4d.; CIMROV, D.P.0 W*hqy~ 1 red.;
VOSTROVY T.M., red.; DVIZHKOVA, R.M., red.;~ 2,10BRAKOV,
N.A., red.; ~LATQTMTQY&,-1.j., red.; RMiUM, H.F., red.
-FAWZHp H.O., red.; YEGOROVA, red.; MASLYAITITSYNA,
R.I., red.; PETRYAROVA, T.D., red.
(Instruments appliances, and machsaisms far.aaseabling and
special worki Instrumenty,,prisposoblenila 1 vskholzmV dlia
montashnykh i spetsiallnykh rabot. Mbskv~, 11ol.2. 1962. 226 p.
(MIR& 16:7)
1. Moscow. Gosudarstveanyy institut po vnedreniyu peredovykh
metodov rabot i truda v stroitellstve.
(construction equipment)
ZLATOUST I@
Gnat achievements lie ahead. OTO 5.no.3;.17-19, Mr i 63.
WRA 164)
1. Predasdatell Moldavs~ogo reepublikanskogo provioniya
Ifauchno-takhnichwoko Iobabohest-wa dol!OkO kboznj-stvu.
ZI.ATOUSMV.- S,.; MITROFkNOV, 1.
On D.I. Agoikinla 1),.)ak "Wignotio gaa analp',jor$411 113te. 'IYII,#
uchob. zav.; prib. 7 no.lil6l-162 164. OMIRA 17:9)
LIWI.%VuLj.LVW ~V . A. j W~WX01MOA11) v. ie. -,-b-ARXk;HZV Ai p A. F.
Periodic solutions in the problem of two dim-,riz;ional of a
satellite in an elliptical orlbit."
report submitted for 15thIntl Astronautical Cong, Warsaw, 7-12. Sep 64.
Com for Space Research USSR.
OKHOTSIMM M. Ty
D. Ye.; ZLMUSTOY~ V. SARYCHXV) V. A. MR~MSXX, - A. P.
"Periodic solutions in the problem of two-dimnsional oscillattons of a satellite
in an eliptical orbit."
report submitted for 11th Intl Cong of Applied Mechanics* Munich,, W, Germaoy,
30 Aug-5 Sep 64.
ACCESSION OR: AR 041590 8/0237/64/000/001500218/002
E., Rot. zh. Metallurgiya Abe. 5D160
SqURC
'AUTHOR: Astaf Oyevj F. S.'i Vokhomakiy. No Sol 51atouatovoKy :D. M.~ tvantgov
-:4
Prirhedlko, Vo H-1 Selivanovi He He
Al
TIT4E: Changes of struct" &I state and hardness of hardened layer of'working'rol
ur
lore of continuous sheets -f cold' rolllng.milla~ as a.re4ult of exploit ti n
CITED SOURCE* ometallurg.1 Vy"p. 28
Sb. nauchn. ir. Hagnitagorskiy gorn, 963
8
2
TOPIC TAGS: cold roller,, working roller, structural state, illardn~'Gs
TRANSLATION- On the basis of conducted investigations of rollerd of told rolling, l!
the following conclusions can bemade. The requirements of GM 3541-57 for a6tivt
layer thickness of cold r~Dlling working rollers are met'nearly iwofold for har4e'ned
rollers after flame heating and current f Ind' . e . -h :
0 ustrial frequeqi y wit .,triple pr"
heatin Ith
go- For hardened rollers after heating current or induatrW frequency-w
a single preheating and-volume heatingo' thickneca of active layer is. one thir&lee4,
4,
-4
Card
MM
ffm 1.14Z.&M.-ARMUMMUM
ACCESSION UR: AR4041590
tniaturets of rollers of d1frerei4t
than requiremanto of GOSTs Moron 0
are very diverse both in hardened zones and also i~ centr*1 parts~'of sections;. 14 ;~A
the central parta of rollers not having an axial'hole, contnmination and porosity,,:
are small and do not Impair the strength properties. In the process of work 6,f
cold rolling rollers, their hardened layer experiences deep structural chanj;eaj
connected with decompositionof austenite and tempering of amrtensite. These proces-
sea proceed with different completeness in Alfferent, parts rif.the roller-and are
accompanied by formation of sectiona.with nonuniform-and lowered hardntss, iMpart-
ing to hardened layer anisotropy of proverties, which accelerates wear and break-
down of rollers. The bALrdness maxima, quantity of residual austchite, Md co'n'tent
of C in tempered martensite of hardened layer of working rollers are located4t
a depth of 3-5 millimeters from surface of barrel and their abaolute values Chanje
on circumference of rollers. These maxima, in the course of work of the roll r
e and,
its overabrasion, decrease in magnitude and shift deep into the hardened layer, re-
maiming as before at a distance of 3-4 millimetera from surface of barrel. Accord-
Ing to appraisal data, it is eWdlent tOL Subject the worki,aig rolleraq lowering the
surface harness below the permissible level (59 R ), to overtempering for res.tord-
"Gificantly An*rease a ones$
tion of properties of hardened layers which can e COW 1 '4
of use of rollers* ConditLonal economy' due to restoration of:worn out rollers aldnei..
C.0ard 213
-WSLATION
a a9
and- static-. shii6-Q-f-a- tata win", nldegree--of.d~i u da-durtho-dHaw- J.
nichromewire4ereottidie&-bi tr utf~ * bf- It df, ted inhaoftitudes';
aA&exte a ib o; ca
with respect to section bs wire Was determined. Values af d d were calculked
Card 1/2
h0749
S11. 20/6 2/000/004/017/047
El 9 2/ E3 82)
-41
AUTHORS: Vodoplyanov, F.A., Ziatov, Yu.M., Uvarov., V. A*
Barabash, L.Z. and -L-ogo~dov,~.
TITLE: Investigetion of th6 procision.system o'& programmed
frequency-control of the accelerating fiold in, tho
proton synchrotron-A
PMIODICAL: Pribory i t-eld-mika: eltsporimenta, no. 4, 1962,
98 - 101
TEXT: The prograi-mied frequency control in the proton
synchrotron is based on two precision aleiwmts; a fraclublicy
prog.~ajmmor and a driver oscillator (described 6n pp. 80 and ac)
.of this issue). During development of this oquipment, the
following problems aere investigated: 1) -accuracy and sta'Ality
of the functional relationship of the frequency and the magiletic
field in the gaps of the electromagnet; 2) parasitic micro-
v,iodulation of the accoleratincr field and 3) influence of the
charadteristics of the accelerating field on the process of
particle acceleration. The stability was measured at 9 points of
the operatinZ-frequency ran.-e (between 696 1cc/c, and B-295 11,101s)
Card 1/3
S/lao/62/ooo/oWolVo47
investigation of F,192/F,38P.
011d it Was found that t))e short-term inst~bilj.ty at the lowest
frequency was + 3 x 10-1 and + 0.06 x 10 at.the upper limit
frequency; cqrresponding fizu~es for long-term inatability
are.,k-.5 x 10 and +o.o6 "'. lo- _4 The perniismbl~ instability
for-the two limits is + 10 X 10 and 0.8 + 10- TJz a
paradtic micro-modulation due to noise was measured at 15 fixed
frequencies and it was found that this never exceeded the
prescribed tolerance. The modulation due to combination
frequencies uas largroly reduced by: usinZ a balanced-mixer syate.-1.
Losses in the proton beam as a function of the accQracy of the 1
frequency-change law Nfere investigated during.the,starting of
the accelerator. For this purpose the frequanc)~-prograiiwinr of
the system received an additional voltage pulse havinfr the
gaussian shape and a duration of 50 - 160 ps. Introduction of
such perturbations at magnetic fields of 650, 4 000 and 6 000 Oo
produced An additional radial deflection of thO beam of 1 205,
:L 3.0 and + 1 mm, at which the strangth of the beam was halved;
the frcque7ney changes corresponding to these deflections were
+ 1.3 x 10-3, + 10-11 and + 1.5 x 10-5
Card 2/3
S/12o/62/0d0/004/017/047,
InvestiGation of .... 2192/E382
ASSOCIATION: Radiotekhnichaskiy institut GXAjr,
(Radio-enainocring Xnatitutes (MAE)
SUBMITPED: April 5, 1962
Card 3/.3
ANDIMEV, Georgiy Borisovich, inzh.; VOWBUZEN, Viktor ~Akhaj-lovicht
inzh.; GORYTRIOV, Boris Fedorovich, doktor teldm~.xiauk
SI-IIIUIGV, Nikolay Androyevichy kand.tekhn.nauk; XWLJIV'P
Georgiy Aleksandrovichy inzh.; Prinimali uchaotlye; AMMKOg
Ye.11., inzh.; ZLATOVEMMIKOV, L.F.,, kand.tekhn.nauk;
KORCIIAGII,TA, inzb.; RM-WRITSEV,
A.N... inzh.; LAPRIA, Z.D., red.; VIOSHAROVA, T.P#. red.;
TIKHOTIOVA, Ye.A., tekhn. red.
[Technical operation of hydraulic eriGineering structures in
harbors]Teldmicheskaia ekspluatatsiia portovykh gidroteklmi-
cheskikh sooruzhenil. [By] G.B.Andreev i dr. Mpakva., Izd-vo
"Morskoi transport," 1962. 375 P. NMI 15:8)
(Hydraulic structures) (Harbors)
G(RYUROY, B.F., kandidat tekhnichookikh nauk; GUDAHMTS,: JI.A. Icaddidat
4 It
tekbuichaskikh nauk; MATO L.P., IIzoIodidal tekhuIcbeakikh*
I
na%*; KAGAM, YaAh..-99~8 Me9WfW16ui; WTOT, A.K."
inshemor; KUROCHKIN. 3.K., inchaner; LTAKRUITSM, T.Teo, daktor
takhnichaekikh nauk. professor; MOVIXOT, A.F., kandidAt takhniclookildi
muki ROK&SHOV, D.G., inzhoner; SHMOSSV, T.K#.# kanftdat takhni-
chaskik-h nauk.- KUZIHIH, T.P., redaktor; ZAYTS&Y. 5.H. radaktoi;
HILMOTA. 3.S., redaktor isdatelletva; TIKHOMOVA, Ya.;., tekhatcheekty
redaktor
[Port hydrotachnical installations; constraction and disigul Portqviye
g1drotakhnicheakie sooruzheniia; konstruirovanto i raschat. Kos",
Izd-vo "Norskoi transport,.0-19560-- 537 p (W2A qzil~
(Barbara)
Translation from- Referativnvy zhurnal, Mebhaniku, 1958. Nr p PQ 'TjS8R)
AUTHORS~ Ankuc~mu,. V. N, Zlato,:exkhc-,.,ni~o. L. F
------------
TJTLE- C a] cul at ion ci ihc O~- ei - ai I St.Abi I ity of HvdvotoLchnk_,,~ Structure.5
Accord'ng to the Limiting stute Method (Rwst~.hcll, c~itl'hchey ust0y-
gidrot,%Ahtnicheskj.~h sooruzheniy po ixiezcou p-, ece.-I
1-0 AC"" -An i V)
PERIOD T CAL, Tr. Tsentr. n. -L in--ta morsl(. tlota 1957, Ni I Z pp 40-44
ABSTRACT- The method of circular- cylindrical slip 5u.-f ace!i ;'S used to
s',.Ibstantlaie the calcuhtt,'ori of the over all suhbUity of bydro-
techn;cal -5tructure foundations, The essence of Lbs method con-
sists ir ~.rvrroducing a stability coefficient as the criti~r,J-_n of the
c.-er-all stability. This stabili.ty coeificient is ribtained :rom the
ql.,otient ol the moments oi the iorces resisting the:up~-ett~ng 0!
the sfructure and the upsetting forces both relall, (~ to the center
c_i the arc c-: slip pissing the iour.datior A tompari-~on
i~' made oi th~~s methoci and the method 6i calculaf_.~~g Qie e-1,er all.
stabil.tv of foundations according to the Urnithig S, Iate P~ oposed
Card 1/2- by D~ Ye, Pol' sh;;-n and R,, A. Tokarl [ Priblizhenryy
SO%',/1Z4 -58- 0- 11 ~590
Calculfit'cr, oi the Over-all Stah:.I;ty of Hydrotechnical Structures (Cont.. I
gratcar-Oiticheskiy sposob rascheta osr,o--,aniy na ustoychi,j-
C' S 0(Approximitte
Graphoaralytical Method of Calculation of Foundations for Stab,I'Ay)~ V SL"::
Mel,hanA