SCIENTIFIC ABSTRACT SOKOLOV, I.A. - SOKOLOV, I.G.
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CIA-RDP86-00513R001652010011-4
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December 31, 1967
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SCIENTIFIC ABSTRACT
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Body:
SOV/ 137-58-9- 18573
Translation from: Referativnyy zhurnal, Metalluraiya, 1958, Nr 9, p 56 (USSR)
C3
AUTHORS, Medzhibozhskiy, M.Ya., Sokolov, I.A., Shestakov, N.A.,
Vasil'yev, A.N.
TITLE: Compressed Air Blowing of Liquid Metal in Heavy-duty Open-
hearth Furnaces (Vduvaniye kompressornogo vozdukha v zhid-
kuyu vannu bol'shegruznykh martenovskikh pechey)
PERIODICAL: Izv. vyssh. uchebn. zavedeniy. Chernaya metallurg-.ya, 1958,
Nr 2. pp 34-47
ABSTRACT: A report on the results of 40 experimental smeltings carried
out in the 390-ton open-hearth furnaces of the KMK (Kuznetsk
Metallurgical Kambinat). Compressed air at a pressure of 3.5-
5.0 atm gage was introduced into the hearth at a rate of 2500-
2800 m3/hr by means of two water-cooled tuyeres installed in
the crown of the furnace. The blowing commenced 1-1.5 hrs
prior to melting and terminated at the beginning or the mid-
point of the pure "boil" period. In the course of the experi-
mental smeltings, the rate of decarbonization became consider-
ably faster, the dephosphorization process more efficient, and
Card 1/2 the content of FeO in the slag increased by 6% at the end of the
SOV/ 137-58-9- 18573
Compressed Air Blowing of Liquid Metal in Heavy-duty Open-hearth (cont.)
melting stage. Instead of 1.0-1.5'C/rnin, as in the case of a standard smelt-
ing process, the temperature of the metal increased at a rate of 2.0-Z.50C/
min; this made it possible to reduce the consumption of conventional fuel by
art average of 7 kg per ton of ingots. In the process the degree of utilization
of OZ contained in the compressed air by the molten metal is increased by a
factor of 4-8 owing to the increased supply 02 from the atmosphere of the
furnace. Compressed-air blowing at a pressure of 5.5 atm gage is equiva-
lerit in efficiency to blowing with pure OZ. The duration of a 390-ton melt-
ing process was reduced by 38 minutes on the avera e. The amount of dust
being evolved during blowing does not exceed I g/ rn@. No noticeable wear
was observed in the furnace lining. Overoxidation of metal in the course of
the blowing process was absent; at the same time the content of N amounted
to only 0.0033%. The finished rnetal contains H, 0, N, and slag inclusions
in quantities analogous to those contained in standard metals. Mechanical
properties of the steel were not impaired.
V. G.
1. Open hearth furnace--Performance 2. Metals (Liquid)--Processing 3. Compressed
air--Applications
Card 2/2
AUTHORS: Sokolov, I.A.,jas-illyev,
-TH-gine e r s
TITLE: Deoxidation of
(Raskisleniye
PERIODICAL; Metallurg,
SOV/130-58-12-7/21
A.N. and Nikulin, N.G.,
Low Alloy Steel Entirely in the Ladle
nizkolegirovannoy stali polnosttyu V koVBhe)
Nr 12, 1958, pp 1L@ - 17 (USSR)
ILBSTRACT: The authors describe 43 experimental heats of types OqG2
and OqG2D low-alloy steels made to investigate the possi-
bility of carrying out all the deoxidation in the ladle.
The deoxidisers in lumps up to 50 mm across were added from
bunkersi first silicomanganese (20-25 kg/tonne steel) and
ferromaiaganese (2-2.5 kg/tonne), then ferrotitanium
(1.2-1.5 kg/tonne); finally aluminium (0.9-1 kg/tonne) was
added manually. The additions were made smoothly and were
completed before slagging started. In a few heats some
metallic manganese was added. The metal was teemed via a
tundish. Samples were taken during melting and pouring.
The authors tabulate (Table 1) and discuss average melting
cc-nditions, compositions of samples and metal temperatures
Card 1/3 for the experimental and for 14 ordinary heats. The
duration of the former was 8 hr 40 min and of the latter
SOV/130-58-12-7/21
DE!oxidation of Low Alloy Steel Entirely in the Ladle
9 hours2L@ min. Mechanical tests on samples taken from
I
rolled products of the experimental and ordimry heats show
that the properties are Dractically the same and superior
to standard specifications (Table 2). The authors give
comparative figures for consumptions of deoxidizers. and
the resulting cost changes per tonne of steel (Table 3).
They quote a figure of L@5-55 roubles conversion cost
saving per tonne. But an editorial note points out that
most of the saving is due to the substitution of Iferro-
manganese for metallic manganese, which is not related to
the method by which deoxidation is effected, and that the
real savingswihich can be credited to deoxidation in the
ladle are the reduction in heat time and silicon and
Card 2/3
BOV/130-58-12-7/21
Deoxidation of Low Alloy Steel Entirely in the Ladle
manganese losses. The ladle deoxidation method was
adopted at the Yuznetskiy metallurgical combine at the
end of 19 57.
There are 3 tables
ASSOCIATION: Kuznetskiy metallurgiches-kiy Icombinab (Yuzi-cetsk:
metallurgical combine)
Card 3/3
24(8) PHASE I BOOK EXPLOITATION SOV/211T
Soveshchanlyt po okaperLmental-noy takhnlka II m*tod&m wyackotempera-
tUrnykh Isaledovanly, 1956
1"perizental-naya takhnika I matody Isaledovanly pr'. YYsoklkh too-
POraturakh; trudy sayeahchaniya (Experimental TecrunIques and
Methods or Investigation at High' Temperatures. Transactions or the
Conference on Experimental Techniques and Methods of Investigation
at High Temperatures) Moscow, AN SSSR, 1959. 789 p. (Series;
Akadowlyn nauk 3SSR. Institut metallurfi, Nomissiya po fiziko-
khLatchaskin otnovam prolzvodetva stall '200 copies printed.
Reap. Edo A.M. Samnrln, Corresponding Member, USSR Academy of
Scloncesi Rd. of Publishing House: A.L. BanJcvItser.
PURPOSE: This book in intended for metallurgists and metallurgical
engineers.
COVERAGEs This collection of scientific papers In divided into six
partat 1) thermodynamic activitv and kinetics of hiALh-temperature
processes 2) constitution dia r tudi ) phTalcal propertl as
.1 am a as 3
of liquid aetala and slaga now analytical methods and pro-
duction or pure metals 5) pyrometry, and 6) general questions.
For nor$ specific coverage, see Table of Contents.
PE2=3200-,
Otlivanov, B.O., and I.A. Sokolov. Industrial Application of
Thermocouples ror Controlling the Temperature of Liquid Steel 6ok
Tbe article describes the prectice of the Kuznetsk Metal-
lurgical Plant In Stalinak of using submerged Platinum-
platinorhodlum thermocouples far controlling the temperature
of liquid steel. Optimum limits of temperature were ~stab-
lishod for various povioda during the final Melting. Some
advantages of this method of temperature control are: fewer
heat:ttapped :tatoolhlgh or too low a temperature, threefold
redu lon In 1 ctr c-furnaco stain2eso-stool Ingots scrapped
bocluse or surface defects, Improved quality of issez-ostructurs.
and longer lire at furnace hearths and roars. so=* improve-
ment@ must be made, however, to extend the @ife of the thermo-
couples.
Svedo-Shvets, X.I., and N.V. Prfdantsev. Thermocouple forShort-
time Re:Gur wentoof Usparaturoa Reaching 2300* C 619
A no th:rmoc uple has been developed for short-t1ma measure-
wont$ of liquid-steel temperatures. The Positive therUO*loc-
trade is tungsten, and the negative a molybdenum allay contain-
lng 0.5 percent aluminum. The thermocouple can measure too-
peraturce within a range of 100-2300' C. developing a Maximum
thormooloctromative fore* or the order or 20 ov.
3/1 33/60/0`,)0/008/(j 14/0 174a.
A054/A029
AU'fHOR3. Morokov, P. K., Sokolov, I. A,, Kochnev, S. P., Kurpyayev, 1. M.
T7LT',E: Remote Control of Steel Pouring From Two-Stopper Ladles
PERIODICAL: Stall, 1960, No. 8, pp. 704-708
TOO: In 1957, simplified hydraulic equipment was designed at the Kuznetskiy
metallurgichezkiy kombinat (Kuznetsk Metallurgical Combine)(with the cooperation of
L. S. Klimasenko, I. S. Lyulenkov, M. D. Zaslavskiy, I. I. Chuvikovskly, S. P,
Kochnev, P. K, Morokov and I. M. Kurpyayev; No. of Authors Certificate: 125011)
for remote control of the stoppers of 200-t ladles, planned by Stallproyekt,
Remote control in this operation eliminates the ver7cumb3rsome manual work in the
proximity of the furnace, reduces the number of workers required and stabilizes
the conditions ofpouring. The hydraulic equipment is placed in an oil container
with a rectangular bottom measuring 670 x 760 nun and a capacity of 120 1. The
cover consists of two parts. The part which is welded to the container.accomodates
the electromotor, the oil pump and the oil filter, while in the detachable part of
the cover the valve-system, magnetic devices and control boxes are mounted. The
hydraulic equipment is placed on the right-hand side of the control cabin of the
Card 1/3
S/133/60/000/008/014/017/)[X
A054/AO29
Remote Control of Steel Pouring From Two-Stopper Ladles
crane, while an the other side of the cabin, an a level with the charging platform
two cylinders with flexible pipes and the control panel are mounted. By activating
the appropriate magnet, oil Is fed by the pump through the valve-system into the
upper shamber of the cylinder. The excess oil fed in by the pump passes through a
release valve into -the oil container under a pressure which is about 2 atm higher
than the pressure prevailing in the working area of the cylinder. This constant
differential pressure in the pump and in the cylinder ensures the stability of oil
flow through the throttle and, consequantly, at the same time also the stability
of the cylinder speed during lifting and lowering the stoppers of the ladle. As
the piston is stationary, the cylinder rises when the pressure is increased, thus
lifting the stopper. The stopper is lowered by activating the corresponding
elements of the system having a reverse f-,mction of those opening the stopper. The
electfte control system consists of a linear contactor, two normally open main
contactors and -,wo normally open block-contactors, timing, zero and accelerating
relays, contactors and push buttons, In the remote control system it is possible
to pour a metal stream reduced io one third of its volume in the first few seconds
of pouring and the transition to full-jet pouring proceeds very smoothly. This
r'-duces the impact at tne bottom of the ingot mold considerably, wh1ch improves the
Card 2/3
311331601000/008,101 -1-VO I 7/xx
A054/AO29
Remote Control of Steel Pouring From Two-Stopper Ladles
quality of the steel. About 250 test pourings (with rail steel and CT.3to
St.3ky., type steel) proved that the quantity of cinder in the lower part of the
casting decreases and also the amount of incrustations in the macrostructure of tl--
rolled stock made from the lower part of the castings is smaller, Further ad-
vantages of the new -system are- -the stoppers open and close at a uniform speed
regardless of the quantity of metal in the ladle; during the interval the ingot
mold is filled with the liquid metal, the electromotor can be switched off; the
system can be applied in any pouring method; the hydraulic system can be adjusted
for the case where the stopper is heavier than the metal stream and also for the
reverse case (i. e., the stopper is lighter than the weight of the metal stream@
The construction and the operation of the hydraulic equipment and of the electric
control system and the tests with the steel poured according to this method are
described. There are 4 figures and 1 table.
ASSOCIATION: Kuznetskly metallurgicheskiy kombinat (Kuznetsk Metallurgical
Combine
'@ard 3/3
KLIMASENKO., L.S.; SOKOLOV,--I.A.; BOTNEV, Ye.Ya.
Steel pouring from two-stopper ladles with remote control of the
stoppers. Metallurg 7 no.4.21-23 Ap .162. (PaRA 15:3)
(Open-hearth furnaces-Equipment and supplies)
(Remote control)
.67 E',IP(k),/E'Irr(m)/F-;iv'P(t)/"F-TI . IJP(c) JD/M
AP6018388 (M) SOURCE CODE: UR/0133/66/000/006/0530/0532
AUTHORS: -Aleshin, V. A ; Kolmogorov,_V. L.; Ural'skiy, V. I.;.Sokolov..I. A -
Moisoyev, G. P.; Krovsikov, R..P.; F2tov, A. A.; Pavlov, A.-I.; Khoroshikh., TU-76.
ORG: Pervourallskiy New Pipe Plant (Pervourallskiy novotrubnyy zavod); Ural
Scientific Research Institute forFerrous Metals (Urallskiy n.-i. institut
chernykh metallov)
TITIE: Shortcut in the production cycle of cold-rolled pipes
SOURCE: Stall, no. 6, 1966, 530-532 11@
TOP-CC TAGS: metal tube, metal drawing, metal rolling, steel 20 steel,:43 ateelp
30KJiGSA steel,, OKhl811lOT steel
ABSTfLACT: tin InvesNation of@plqpticity aft old rolling of the more widely
6el steel pipes (20 GSA@ s carried out. The plasticity of
,I 2QKb,- _AU OKhl8Nl )1
the metal was determined as a function of the elongation coefficients S./So of
ind diamter ratio dx/do. The experimental results are shown graphically (see
Vig. 1). The maxinum residual stresses were calculated after H. Anderson and G.
Fah.lman (Journal of the Institute of Metals, 1925, v. 34, No. 3, p. 271-275).
it was found that repeated drawi tafter cold rolling without employing an inter-
mediate thermal treatment yielded pipes with satisfactory mechanical properties.
Tho combined drawing and rolling process permits a shortenUjj_-oth5 usual
Card 1/2 UDC: 621.774.353-37--
V@ V@Uljsa- P 0 I'-r I I I I I t I I-I . I I I I I . . . .
0
tion coefficients. mto
A A
08-- VIP
+347-7
067 J VV- 71
05--
m
103 -;e
02 -ef ;;;
0, 1 12
0
y q3 0,8 47 46 j
I'a gs 0,8 47 --45 .17
production cycle, resulting in considerable sa ings in production coste, Orig,
art. has: 1 table, 2 graphs, and 1 equation.
SUB GDEE: 3-1/ SUBM DATE: none/ OTH REF: 001
RARA-VAYEVA, N.A.; &N.OLOV, I.A.; SOKOLOVA, T.A.; TARGULIM, V.0.
permafrost
Characteristics of so4l formation ir tun
regions in Eastern Siberia and the Far East. Pochvoveder-ie no. 7:
26-37 Ji f65 (MIM 19:1)
1. Pochvennyv. institut imeni V.V. Dolnichayevap Moskva, i Institut
geografii AN SSSR. Submitted March 10, 1965.
SOKOLOV', I.A.; 2EICUSCU
Cj.,gan.-'c rra@z@r 4-:i t@e soils of Karncl.atka and scma mroinlej7S c-@,
.1:7S So 4 1
atilon. Poch,;
_I -I:LLr Corr -ovedenie no.-IC -c-37 6 164@.
OMIRA 17:11)
itistifut ineni Dokuch-ayeva- All SSS.R, Moskva.
BALASHOV, V.I.; ARGUNOV, R.S.; SOKOLOV I.A.; ROGOZHIN, V.A.; USANOVA, A.V.
Outbreak of food toxicoinfection caused by two types of Salmonella.
Zhur.mikrobiol., epid.i immun. 32 no.12:114 D 161.
(MIRA 15-.11)
(FOOD POISONING) (SALYDNELLA)
SOKOLOV# I.A.
Soils of meadow steppes In eastern Transbatkulla [with aumm=7
in English]. Pochvovedenle no.11:52-59 N '58- (MIRA 11:12)
1. Fochvennyy institut imeni V.V.Dokuchayeva AN SSSR.
(Tranabaikalia-Soile)
IV AN,Wj,., Y1, @N 1(--j'--0V N y E, (A.1 ic"n, - .'k ;01,;j I, 1N0-'ii',j , V
i.- I Tinima I i uch,@@,Aiyc: IV yq.N.
PUD11,7r., L.F.; VISIFF'..V15YAYA, I.V.; MiASDIOV, I.P.;
KOSK L F"11'.. , I . T 'Ye M @ ; S-77.1 Yr-
SOh1')J-O;'A, T.A. V.0.
New materials on general geography and z:oil classificat-LDn of the
polar And boreal belts of Siberia. Poel,vovedenie no.11:7-23 N
61. 1 (1111RA 14:12)
(Siberia, Morthern--Soils--Clas~:ification)
(Siberia, Worthern-Ge.:)graphy)
SOKOLOV, I.A.
Vertical zanalitv of mountain soils in Transbaikalia. Izv. -'!; ZSS-:@.
Ser. geog. no.5:k-88 S-0 '64. (IMMIA 17:11)
1. ?cc'-,vennr L -1
y 4nstitut 4m. V.V. Dokuchayeva, 14oslcv-,.
SOKOLOV I.A.; SOKOLOVA, T.A.
- L-=
Zonal types of soils in regions of perennial frost. Fochvovedenie
no.10:23-32 0 162. (MM 15:11)
1. Pochvennyy institut im. V.V.D@kuchayeva,
(Tranabaikalia-Frozen ground)
BADMAYEV, 'K.N.; ZENIKOVICH, S.G.; SOKOLOV, I.A.
Scintillation gamma-encephalometer for the diagnosis of brain
tumors. Med. rad. 5 no-4:57-64 Ap 160. (MIRA 13:121,
(BRAIN-TUMORS) (RADIOMETER)
.! SOKO.LO.V.2 Igor' Aleksandrovich; SHULEYKIIII, P.A., red.; 11AZAROVA, A.S.,
tekhn. red.
[Under the new conditions] V novykh usloviiakh. Moskva, Izd-vo
"Znanie," 1962. 45 p. (Narodnyi universitet k-ulltury. Sellkhozizi-
stvennyi fakulltet, no-4) (MIRA 15:5)
(Agriculture)
S Igor' Aleksandrovich; SHULEYKIN, P.A., red.; RAKITIN, I.T.,
SOKOLOV)
tekhn. red.
(Without manual labor]Bez ruchnogo truda. Moskva,, Izd-vo
"Znanie," 1963. 48 p. (Narodnyi universitet kulltury.- Sell-
skokhoziaistvennyi fakulltet no.2) (MIRA 16:1)
(Farm mechanization@
t t
PHASE I BOOK EXPLOITATION SOV/5176
Kushelev Viktor Viktorovich and Igor' Aleksandrovich Sokolov
.0 A I-
Korpusa sudov iz plastmass (Ship Hulls Fran Plastics) Leningrad, Sudprcmgiz, 196q.
111'.P. 4,300 copies printed.
Scientific Ed.: A.A. Brant; Ed.: A.I. Kuskova; Tech. Ed.: R.K. Teal.
PURPOSE: This book is intended for engineers and technicians of the shipbuilding
indwitry who are engaged in the design and construction of ships from plastic
materials. It may also be used by students, at institutes and tekhnikums.
COVERME: The book deals with the use of reinforced plastic materials in the pro-
duction of ship hulls. Particular attention is given to structural plastic ma-
terials and the technology of hull construction. Some data are provided on the
recent production of plastic materials. Chapter I was written jointly by the
authors; V.V. Kushelev wrote-Chapters II, Vy VI, an@ subsection 16 (in Ch. IV);
I.A. Sokolov wrote Chapters III and IV. The authors thank B.P. Sokolov for his
advice. There are,25 referiqnces: 13 Soviet, 6 English, 4 German, 1 French,
and 1 Danish.
Card,+/--qt-
GAI.1'1',;KJYJ BoH.,; t-Akhaylovic1l; SEVIMATOV, Vsovoiod rilikolay,".'ich;
'VIIf'CV, i3oris KonstartinoAch; RU"AKOV, A.N., retsenzent;
SOKOLOV '@ 1.A., red.
[Regulations for the performance of repair and construction
work3 norms and estimates] Fravila proizvodstva rerrontno-
stroitelInykh rabot, normy i rastsenki. Izd.3., ispr. i
dol.. Kiev, BudivelInyk, 1965. 718 P. (M-IR-A 18:4)
SOKOLOVI LA..$ KARAYEVA, Z.S.
Migrat-n of huims and some elements in the -profilp of vulcanic
foros soils in Kamchatka. Pochvovedenie no.5.12-21 My 165.
18'-5)
1. Pochvennyy institut imeni DAuchayeva, Moskva.
USHAKOV., I.k.; ALIKIN, Yu.K.,- ALIMOV, O.D.; MALIKOV, D.N.;
SOKOLOV, I.A.; NEYANIN, S.D.
Way of erecting supports In upraise shafts. U9011 38
no.12i53-54 163. (MIRA 17:5)
SOKOLOV.. I.A*, kapitan-leytenant
Guarantee of Dature feats. Mor. sbor. 48 no.2.18-21
F 165. (MIRA 18:11)
GJ11ZBURG, Mikhail Borisovich, starshiy nouchnvy sotrudnik, kand.tekhn.
nauk; KALITSOV, Konstantin Aleksondrovich, starohiy nauchnyy
sotrudnik, kant.tekhn.nauk; SOKOLOV, Igor' Borisovich, mladj3hiy
nauchnyy sotrudnik; red-i: - '
Determining the intensity of back-pressure in concreting
hydraulic structures] Opredelenie velichiny protivodavleniia
v betonnoi kladka gidrotekhnicheskikh sooruzhenii. Moskva. Gos.
energ.izd-vo, 1959. 66 p. (MIRA 13:3)
1. Rukovoditell laboratorii inzhenernykh konstruktsiy Ysesoyuznogo
nauchno-issledovatellskogo instituta gidrotekhniki im.B.Te.Vedeneyeva
(for MalltGov).
(Hydraulic engineering)
KA,LITSOV, K.A.,@. SOKOU)V, I.B.
Testing prpssure In concretes to be used for hydraulic structures.
Nauch.iol.cl.ws.shkoly: stroi. no.1:233-239 '59.
(-IRA 12: 10)
1. Relromendovana Vaesoymaym nanchno-Issledovatel 'skin institutom,
gidrntekhniki lm.B.Ye.Vedeneyeva I kafedroy gidrotskbnIcb9skIkb
sooruzhenly Mos)-ovskogo inzbenerno-atrottel'nogo Instituta I*.
V.V.Kj,ybynheva.
(Concrete-Tonting) (Hydraulic nnginnoring)
50)
AUTHORS: Arkhipov, A. M., Malltsov, K. A., SOV/20-125-2-34/64
Sokolov, I. B., Staritskiy, P. G.
TITLE: On the Influence Exercised by Water on the Strength of
Concrete (0 viiyanii vody na prochnost' betona)
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 2, PP 359-362
(USSR)
ABSTRACT: The strength of concrete in the case of elongation in the
direction of axis R of elongation in bend.ing Rd., and
d'
comp-ression R. depends to a varying extent on the liumidity
content, composition and the nature oE additions. The authors
devoted special attention to the strength of ,on%ret-a -Ander
elongation in the axial direction. The resistanoA to elongation
Rd is the most important featura of concre'*%-O@! The
elongation mentioned determines the resistance to brittleness
and therefore also the working properties of the construction,
including durability (Refs 1-5) and working lifi@. During the
::,am!ar-.t
hardening process the present free water wa--ranTz
Card 1/4 .
hydration and increases the strengt'h of con-'rete. (Tablo 1).
On the Influence Exercised by Water on the Strength SO V/21-1- -'@ 2;-, - -5,6164
of Concrete
This indicates also that the same samp-le:3 in dry state are
twice as strong as water-saturated! samples due to tjbz.@i
physicochemical action of water contatned in the porea of the
concrete (Refs 6-10). Figure -,' shows that the strAngtlb of
concrete and mortar decreases with -i-rQreasing hum".dity S-n-ntent
of the material. The above-mentioned dependenop -' -,; -:@xprassed
by a formula in the first approximation. If ths sam-oles are
artificially overdriedg the strength sometJ.mes rar.-A-ly de-.-reases,
which must be taken into account in establishimg ths range of
applicability of the formulas. Though the --reducti.-2a -,f strength
by saturation with wate-z- has been known already a 'Long
time and even a"softening coeM,3J-en'-1,-, has beez introduica,sa,
no satisfactory physical explanatf-on of the pr::,b!-6m was given
before 1946 when Rebinder (Rlef 13) filled the gap. He proved
that each pore filled with water serves as a containe@7 which
feeds adsorption films covering the old and new frse surfaces
of defects and cracks. It was shown that the ratio of water:
cement (w : c) has only an insignif-@--ant effeot oa conorete
strength under elongation but determines the degree cf possible
Card 2/4 saturation with water. The results of expc-riments mada in order
On the Influence Exercised by Water on the Strength SOV/20-12r-2-34/64
of Concrete
to check the above-mentioned considerations are given in
figures 1 : 3- In this case, the ratio of w t o determined
only the reduction of strength by a forced saturation with
water, the degree of which rises with an increase of v a c.
A very important conclusion may be drawn therefroms it is
useful to reduce the capability of concrete to absorb water
in order to increase its strength. This fact has been
utilized for practical purposes already since a long time
as confirmed by the use of rigid, little porous concrete
and by the introduction of various additions (Table 2).
It should be taken into account, however, that only certain
additions can be recommended for the individual pirposes
(hydrotechnic concrete, civil building-trade). There are
2 figures, 2 tables, and 20 references, 19 of wh-icb are
Soviet.
ASSOCIATION: Nauchno-issledovatellskiy institut gidrotekhniki im.
B. Ye. Vedeneyeva (Scientific Research Institute of
Card 3/4 Hydrological Engineering imeni B. Ye. Vedeneyev)
On the Influence Exercised by Water on the Strength SOV/20-125-2--34/64
of Concrete
PRESENTED: November 21, 19589 by P. A. Rebinder, Academician
SUBMITTED: September 10, 1958
Card 4/4
S/.08 6,/000/019/055/085
B-1 17@Bi 'Ito
AUTHORS: Malltsov, K. A., Sokolov, I. B.-j..-Arkhipoxrg A. M.
TITLE; Importance of concrete satuxation with water to the problem
of the influence of tb,--, watar-oemen@ ratio on its strength
PERIODICALs Referativnyy zhurnal. Xhimiya, no. ig., '196", 317, abstract
19K326 (Izv. Vses. n.-i. in-ta gidrotekhn., v. 64, 1960,
85 - 100)
TEXT; The effect of water on the 9trength of consrete has been studied.
It has been shown that the strength of con@@rete is considarably influenced
by saturation with water during tests. but fioT. by .hp- initial water-
cement ratio. [Abstracter's note., Completm tran-glati-OP-1
Card 1/1
GOLIDIN, A.L., red.; ZHILENKOV, V.N., red.; I2MAYLOVA, R.A., red.;
KRAYEV, G.A., red.; KRICHEVSKIY, I.Ye., red ; Y
red.; SOKOLOV, I.B.J. red.; SUDAKOV, V.B., red."+
red.; SHULIMAN, S.G., red.; ABRAMSON, L.S., tekhn. red.
[Collection of reports on hydraulic engineering; the third
engineering conference of young scientists] Sbornik dokladov
po gidrotekhnike; trettia nauchno-tekhnicheskaia konferentsiia
molodykh nauchnykh rabotnikov. Moskva, Gosenergoizdat, 1961.
183 P. (MIRA 17:2)
1. Leningrad. Nauchno-issledovatellskiy institut gidrotekh-
niki.
ARABAWHYAN, I.A., red.; IaJAYLOVA, R.A., red.; KRAYEV, G.A., red.
[deceased]; KRICHEVSKIY, I.Ye., red.; SOKOLOVI I.B.., red.;
SO11TYSHKOV V.A., red.; SrRELITSOVA,
G.D., red.; S11ULIMAN, S.G., red.; ABRAMSON, L.@. tekhn.red.
(Collection of papers on hydraulic engineering] Sbornik dok-
ladov po gidrotekhnike. Moskvaj Gosenergoizdat, 1962. 284 P.
(MIRA 17:3)
1. Nauchno-tekhnicheskaya konferentsiya molodykh nauchnykh
rabotnikov. 4th, 1962.
SOKOLOV) I.B.; PERMYAKOVA, V.V.
Design method for determining the back pressure of water taking
into account the stressed state of the concrete of the hydraulic
structures. Sbor. dokl. po gidr. WIIIG no.4:48-55 t62.
(f,tTP-k 18:7)
BASEVICH, A. Z., doktor tekhn. nauk.-prQfl SOKOLOV, I. B., inzh.
Coordinating conference on studies of characteristics of
hydraulic concrete and reinforced concrete subject to static
and dynamic loading. Gidr. stroi. 33 no.12-55-57 D 162.
(MM 16: -1)
(Concrete-Testing)
I..@, j /1, 17
13613' llhw P""m of Wyinx IAMP Peat bry Uw of
IIUIIIPir-IAYVr n". ( RUIWAH.) V. K KillatifWOV @nd 1-1).
\-s"--Tt4Ljnmid proo"Yahl"llstaf, V. N, July 102. P. 2,84C
th.ti%w, %artms asprtts (of dming, IMA frout a writ@ (if tvst
plics mv td)u6tvd.
SOFOLOTI, I. D.
Peat Industry
Determining i-he degree of dependability of peat winning methods.
TorC. prom. 30 no. 1. 1953
9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.
SOKOLOV, I.D.
Methods of establishing certain industrial indexes. Torf.prem.
32 no-7:15-16 '55. NLRh 9:1)
l.Vaesoyuznyy nmuchrio-issledovatel'skiy inat-Itut torfyanoy
promyshlennosti. (Peat industry)
15-57-5-7266
translation from: Referativny zhurnal, Geologiya, 1957, Nr 5,
p 217 (USSRT
AUTHOR: Sokolov, I. D.
TITLE: Direct Moistening of Cut Peat by Atmospheric Pre-
cipitation (0 neposredstvennom uvlazhnenii kuskovogo
torfa ot atmosfernykh osadkov)
PERIODICAL: Tr. Vses. in-ta torf. prom-sti, 1956, Nr 13, PP 37-47
ABSTRACT: The mechanics of the absorption and flow of moisture
from peat blocks are briefly analyzed. The wide-
spread concept of the primary part played by ab-
sorption of moisture by the peat block from the soil
through its bearing surface is rejected. The process
of moisture exchange between the peat and the soil is
considered a special problem. The observed results
of the effectiveness of drying cut peat on fields at
Card 1/3 the Naziya peat enterprise are set forth. It was
JU01
eare aill
1p eat eat yLe 5
of r"at ic, a, ral ju-
oil 0 5,-.e sipec iq ell ,be&
isteniflg relat'@ @355R 9, dLescr'
0 the the 1948 a - s Tf ace
Direct 011e iolt 0 5 1 5a
laelic \).ctea -tat arat\I, ICIV-5
dLata0 Ttle aP'? tbe to'9 BIO If
oj@j. , G 11str ,Tee ,,ijje Oil c erlt ed,
ta,
,bta:L" 'tat-@--rN M. ) per r
to 0 eci-q-j@ txlral c elit tho
ire 'Or dL'j5_"' J 'aa 5Cv bis 'Ma O@ 3er ax!
tate 5ts.
des ,aer" @ -peat 'n vlit'h t -tio%) to 2 5 Y
mij 'bO tedL ttillse. te
tjje _I IOfaomiposl8 arl Jjjorl'
C @o vl@"icyl areac of me ji'MIT, a
P- . e .0116'ar, fae t eat - af or -re 'bIj the
av, as0co%I is of 1) tioll
'h- 0-4 er . st-ar e, re test-- orl
ac " sts &e6ree
5-:,ty O@ te ge me ba5 eci9italcte"t' rec@-P@s
teT1 -es aVera ts tyie e
tj,amol oil . o1a of 'Pr arge it,, Of
5er,,,.4,,h at, VI-1. 'flgeme'a olrjs a . t e-jj 5,,tat ty@e
j at -fr aI'asI to i .
,eat 0\),S Pe .i,,g a colic absor 51 t1le III ,Tee t el't lrdL-,
.h.YdLr S ar. * %@g . e to C 011 is
of rect et' dLxje . ,\,,re
. o1a dLI cv-5
ar I f O.Le0t bIO. OYI e'q e9 eat JU01 OvIer . 0a O@
tjje ',tag a 10,W er 11 1
fpea I sor-pt
aLrav'5 ercelIitat' Ver
t,ae V 00A tev" O\j e
,,,f ace reel lo@e is) O@a
I) rttal 5 1of 1) 1 'z e'al g c eage
SO oxint 5ta-at 0- er 01 er
.011 Nq
t al alu cillMt e
- at ce
to 4rA e -- ----
O@ vib
ta J '011 f ere-C'ae
dLjf var
all'i - tera
actxI ofI
ry@
i@egree te
cated, 2)
GaTdL
SCKoLoV, J.D.
winning peat employing artificial drying of unmarketable
Methods for (KLRA 9:5)
milled peat. Torf.prom. 33 no.1:23-26 156.
1. Vsesoyuznyy nauchno-issledavatel'skiy institut torfyanoy pro-
myshlennosti. (Peat industry)
0
SOKC-LOV, I.1).
Division of the peat industry into districts on the basis of
climate. Torf.prom. 34 no.5:9-11 '57. (MIRA 10:10)
1. Vaesoyuznyy nauchno-iseledovatellskiy institut torfyanov
promyshlennosti.
(Peat industry)
SOICOLOV, I.D.
Investigating the drying of milled pent. Torf.T)rom. 15 no.2:26
15 F3. (MIRA 11:5)
1. Rukovoditell laboratorii Vaesoyuznogo nauchno-isaledovatel'skogo
institutA torfyanoy -'oromyshlennosti.
(Pent--Drying)
CHUBAROV, N.D., red.; KORCHUNOT, B.S., kand.tekhn.nauk, red.; SOKOLOV,
I.D.; KOLOTUSHKIN, V.I., red.; LARIONOV. G.Ye., tekhn-.--r-ed-.---
(Results and main trends of research on the cutting method of
peat winning; materials of an industr@-wide scientific and
technical conference] Itogi i osnovnye napravleniia nauchno-
issledovatel'skikh rabot po frezernomu sposobu dobychi torfa;
materialy otraslevogo nauchno-tekhnicheskogo soveshchaniia.
Pod obshchei red. H.D.Chubarova, S.S.Korchunave i I.D.Sokolova.
Moskva, Gos.energ.izd-vo. 1959. 253 P. (MIRA 13:8)
1. Leningrad, Voesoyuznyy nauchno-issledovatellskiy institut
torfyanoy promvshlennosti. 2. Rukovoditell laboratorii fre-
zerno.-o torfa Ysesoyuznogo nauchno-iseledovatel'skogo instituta
torfyanoy promyshlennosti (for Chubarov). 3. Rukovoditell la-
boratorii Vsesoyuzno--o nauchno-issledovateliskogo instituta
torfyanoy promyahlennosti (for Korchunovj Sokolov).
(Peat)
-SOKOLOV, I.D. ; BERMAN, Yu.A., kand.tekha.niluk
Investigating the process of an artificial additional drying of
peat litter. Torf-Prom. 37 no.6:19-22 160. (MIR& 13:9)
1. Yeesoyuznyy nauchno-isoledovatellakly lustitut torfy"oy pron7sh-
lennosti.
(Peat-Drying)
KUDIMOV, Leonid Petrovich, inzh.,- KUSKOV, Yuriy Danilovich, inzh.;
SAFONOV, Konstantin Yeygenlyevich, inzh.; SOKOLOV, I.D.,
red.; BULIDYAYEV, N.A., tekhn. red.
(Mechanizing the preparation of peat deposits for winning
peat]Mekhanizataiia podgotovki torfianykh mestorozhdenii dlia
dobychi torfa. Moskva, Gosenergoizdat, 1962. 350 p.
(MIRA 16:4)
(Peat industry-Equipment and supplies)
SOKOLOV, I.D.
Conference of the readers of "Torfianaia promyshlennostl."
Torf.prom. 39 no-2:32 '62. (baRA 15:5)
(Peat industry--Periodicals)*
SCIFOLOV, I. D.
"Air drying oll milled peat."
Re-vort submitted for the 2nd International Peat Congress, Leningrad,
t@
15-22 Aug 63.
ofe33dre-cr
iz, zhur-
ic-
Tnstitut torryanoy promygrile-nnosti, Leningrad,
VAKHRUSHAVA, Ollga Afanaslyevna; RADCHEDKO, Arkadiy Ilikolayevich;
ABDULLAYEV, Dzhura Abdulleyevich; SOUNOVSKIY, A.A.. inzh., red.;
SOKOLOV, I.D.., inzh., red.; MORDVI110VA, N.P., inzh., veduBhchiy
A, T.M., tekhn.red.
CAutomatic transmitter of alarm and distress signals] Avtoma-
ticheskii podatchik signalov trevogi i bedstviia. Maloreleinyi
raspredelitell impullsov. Moskva, 1958. 14 p. (Peredovoi
nauchno-tekhnicheskii i proizvodstvennyi opyt. Tema 42, no.P-58-45/3)
(KIRA 12:9)
1. Almdemiya nauk SSSR. Institnt nauchnoy informataii. Filial.
(Electric relays) (Pulse techniques (Electronics))
(Radio--Installation on ships)
VCRONKOVY Pnatoliy Yefimovich, inzh.; KORABLEV, Lev Nikolayevich,
inzh.; MURIN, Igor' Dmitriyevich, inzh.; SHTRANYKH,
Igor' Viadimir6vich, kand.tekhn. nauk; SHTEYNBOK,-G.Yu.,
inzh., ved. red.; gOKLQY,,_I.D., nzh., red.; SOPOKINA,
T.M., tekhn. red.
[High-speed multichannel pulse height analyzer-]. Bystrodei-
stvuiushchii mnogokanallnyi amplitudnyi analizator. Moskva,
Filial Vses. in-ta nauchn. i tekhn. informatsii, 1957. 63 P.
(Peredovoi nauchno-tekhnichaskii i proizvodstvennyi opyt.
Tema 41. No.P-57-16/1) (MIRA 16:3)
(Pulse techniques (Electronics))
(Electronic measurements)
NCITKIN, Leonid Rafailovich, inzh.; MORDVINOVA, N.P., inzh., ved.
red.; .4@O V,-I,.D., inzh., red.; SORDKINA, T.M., tekhn.red.
(GI-2A-type pulse generator]Generator impullsov GI-2A. Mo-
skva, Filial Vses. in-ta nauchn. i tekhn.informatsii, 1958.
30 P. (Peredovoi naucnno-tekhnicheskii i proizvoditellnyi
opy-t. Tema 36. No.P-58-2/1) (MIRA 16:3)
(Oscillators, Electron-tube)
(Pulse techniques (Electronics))
WRSKIY, Grigoriy Moiseyevich, inzh.; SHTEYNBOK, G.Yu., inzh., ved.
red.; SOKOLOV, I.D., inzh., red.; SOROMA, T.M., tekhn. red.
[Pulse amplitude memorizing device] Zapominateli amplitud
impullsov. Moskva., Filial Vses.in-ta nauchn. i tekhn. infor-
matsii, 1957. -.13 p. (Peredovoi nauchno-tekknicheakii i pro-
izvodstvennyi opyt. Tema 38. NO.P-57-45/3) (MIRA 16:3)
(Pulse techniques (Electronics))
(Electronic apparatus and appliances)
RYBAKOV, Boris Vasillyevich, kand. tekhn.nauk; SHTEYNBOK, G.Yu.,
inzh.,, ved. red.; SOKOLOV, I D., inah., red.; SMIRNOV,
B,M., tekhn. red.
[Electronic device for measuring phase-shifted code impulses]
Elektronnoe ustroistvo dlia sravneniia kodovykh impullsov,
sdvinutykh po faze. Moskva, Filial Vses. in-ta nauchn. i
tekhn.informatsii, 1957. 15 p. (Peredovoi nauchno-tekhniche-
skii i proizvodstvennyj opyt. Tema 40. No-P-57-6/1)
(MIRA 16:3)
(Information theox7)
(Pulse techniques (Electronics))
=a in Ang 48
Construction Equipwnt
Winches
"S-201--A Friction Winch Having a Lifting Capacity
of 1.0 to 1.5 Tons," I. D. Sokolov, Ingr, 2 pp
"Mekh Stroi" No 8
Saratov plant of Ministry of Construction and Road
Nachins-Buil&lng has prb&uced experimental model
of 8-201 vinch. Describes winch in detail. Draw-
ing s, tables and photograph.
15A9TTO
i@A 15/49 T70
SOKOWV, I.D., inzhener; NOVOSIMISKII, P.I., inzhener.
Elevator T-143 for building skyscrapers. Mek-h.stroi. 10 no.10:16-19 0 '53.
(MMA 6:9)
(Hoisting machinery)
SOKO I . ., inzhener,
New T-226 tower crane. Stroi. i dor. mashinostr. 2 nG.6:11-15
Je '57. (MIMA 10:61
(Cranes, aerricks, etc.)
IOGANSEN, Aleksandr Aleksqndrovich; LYUSTIBERG, V.F., inzh., ved.
red.; SOKOLOV I.D. inzh., red.; SOROKINA, T.M., tekhn.red.
(800 timer calibrator]Sekundomer-kalibrator tipa 800. Moskva,
Filial Vses.in-ta nauchn. i tekhn.informatsii, 1958. 17 p.
(Peredovoi nauchno-tekhnicheskii i proizvodstvennyi opyt.
Tema 31. No.P-58-34/6) (MIRA 160)
(Automatic timers)
A JTE. 10H.3 :3 1 ovI F Val an 7 D.Yo.
T-TIE: 0-.-)tipu--.. Linear ILnten_-_'-.sHavinr' a Continuous Current
Distribution (0'3-'U_Jnal'n@W lincynx sinfazn@ye antenny s
noprcryvny-.ii raspredcleniyem uoll-zayo
PErHIODICAL: Radiotehilnlika i 1)513, Voll.III, Nr 1,
-@)--46-55 (USSR)
ABSTRACT: T-11-e opti-Lui@a reaCliation pattern of a directiona@l anteraia,
as defined by Dol,w-,h (IRef.1) iz the prat-tern wl-iich, for a
'@@Iicllth of tl@_-' 7ain beam, has a -linimum- level of the
side lobe-,:7, or, aIternati-vel.-f, at- a given level of the side
L- _-, width of the main lobe. Tae -oroblem
lobes, ives a
of desi-nin- tI-Lis tuyi)e of antenna -,.-,;as solved by Dolph by
-means of the Chebyshev jolynor-iial and the vidth of main
be=_ of t1le radiation Pattern at a level, r is ex-
,pressed by Eq.(l), I-..-.Liere R is tLic; relative level of the
side lobes and n is -the nu:-nbor of the eciuidistant radia-
Uors. T'L-ie rarametcr u is defined by
Zd (2)
Card 1/4 U = ' X sin 9
0 - t imuni Li lie ar In-PI-1-as e Ant enna Havir-, a C -nt i flous C urL,- - -
Distribution
U 4-3 -U'"- e
where d is the distance bntvieen -,--he ra.-I 4 - 'ors I
viaveleng`h and 0 is -the nn-le measured f-rom t,;, ,er--)ondic-
,U LD
ular of the radiator (see Eq.(Il) cann be moc,Lified
to cover the case of a continuous antenna, VII-lic:1 cmn be
re-arded as '!,c-;M@- constructed of an infinite number of
radiators; the lerin-th of the antennia is D and if D is
LI
assumed Uo b& a conotant, the si.DacinZ betWeen th,@ radiators
4-
decreases to 0 as n Uends to infinity. By introducing
a new variable definod by:
v = TrD sin 9 (3)
Eq.(l) can be expressed as Eq.(5), w-1-ich can be solved, with
1@ e rasultinr@7 solution is expressed by:
res!Dect to r T, U
CT2 _q
(V) chl ar 'r
R
The eauation was used to construct a number ol' radia-ion
U
Datterns for various R and thoso are s_!,_,D%"n in -F-1--s-.2. Ap-
Card 2/4- o
10J-1-5/18
Or, - @5 imu:a Li-n-= I'Tri-Plia@3e Havlinz a Continuous Current
Distribut
'te:
u ii-A is made to evaluate the cu--rent distribution in
a
the above optimum antenna. It is shozn, however, (See
Rv@.11) @hat the current diotribution is not physically
0-;rLcc-. U11C.' [_MtC_'ma hr.Lve c..:;ns_i_doVablt:- Carr-
on ju- m' au' its An aL@cmi)L is m:Idle h to
U
d'- @U- eJ_ nc !,.I;:; `a'-ion -Da'ter@ ,:; of -he writem-La in which
U U
Ulie c-Li-r=it distribution is a ziono t onic ally dec_-eas-mi.@:'
f Unct - Dn' C -
U.7-ere --re no sudden j-LLm_ps at the ed'ges. The
-ia' i)n _L -
ra(I t patteras of sucl-, mate-nnias, referred to as the
quasi-opt.2-:.tLi-m a.-Litennas, is defined by E'q.(18). result-
in, -c@Lrves a .3 'D
I a by dashed lincs in Fif7s.2. 3,7 commar-
th,- CLLIVe& for t1io o_)tJm-,xm and tiie c.,aasi-o.-'i.-.i=. amte-
_U_ - - 2 U -L
iG can oa see--- -U'Liat t1ae latter has a somo-.what --aid-Dr
,lain !,:)be and a slichitly _"-i_J2;her firStU Side; lobe. The
current distribution necessary to achieve tulie qrasi-o-ptimiuia
radiatim -'@'a'-'Utern can b,@, found from Ea.(l,)-). The eauation
can be solved a--.)3:o:-_i=-cely. The results SILO= M.
reorosent the c-_L1_-ra_nt _'_istribation calculated flor various
1,-:!vcls of t'aa side lob_@s ('Lr.,D- 2-0 to SO db). Fro-m tulnese
Card. 31L@
OpLinum Lin,,-ar In-Pllas,@11
U-1
Disbribubion
curves it is seen tli,,-,t ti,.e quasi-o-@,.tLaw:,. currenit 4but-
i,-)n is govorned a smo )-th mon-)tuonir, funct-ior.. If ti-le
L;ido lobe is --'Locr@!as-,@dItho lozc of the carront dis-
tributionn cui@v@@ is i.,creased =ndl t1ic cLLrrent ara*,,.litv,,,!-- at
.-@3 -omna is reduced. Also -'-Ii2 'i-re3tivi- y
the cd e of ant U u -- %I -%,
coef f icients of tLle o,"u-imum. and 1-uasi-o-otimum @-te--,-ina wore
calculated, as a function. of D and R and these are s1iovm
in Fir-s.r' 3. Th,ero i--T,-- 3 a-lid 2
-Rus3iian, @-fere2ces.
I - -. C,,-
SUE-MITTED: Uov--aber 22, @) -,,D
AVAILA-D-LE: Library of Con.-ress
Card 41L@
.I L
r @L t e v I
te
S u-,: -e
r
to the
t e
Jejoc2ty a- ove n
urs
n a @..ons@@on cill.-iate
r C
r
t
in tl e i e r a t e!a t 1 tuae n a 6 S 0 f e lon .-,a estab-
U-f j ti- cir -re 0-.St@rve@ n
C a S
ti t Lilo ril, - --
n tlae
@o
o L"t s t v"".-I ell is
of t-e ve 1, v eoe rlod (R"'-rlGeol,
FF-DOROV, Yeja@@ profest3i@-r; PIMTECEIENSK-TY, P.P.; BUCHINSKI'L, ljr'.;
SETANINOV, G.T., BOSM, L.V.; ALISOV, B.P.; BIRYUXOT'
N.N.; GALITSOV, A.P.; GRIGORIYEV, A.A., akedemik; RYGENSON, M.S.,
prcf6as;@z; MURETOV, X.S.; KHROMOT, S.P.; BOGDANOV, P.N.; LEEEM,
YANISHICVSKIY, Tu.D.; SAMOYLENKO, V.S.; US -
A.N.: MA6
NOV, R.F.; CH"MOV, L.A.; TILOTSFMO, S.Ya.; VANGENGEYM, G.Ya.-,
SOKOLOV, 1.F.- SMO, B.I.; MWIKOVi, N.S.: 1SAYN7, B.A.; DNITRIYXV,
X-.JMF@@N, Te.k.; LlEEFJU, Ye.K.; SAPOZHNIKOVA, S.A.; RAKIFO-
VA, L.R.; POKROVSXAYA, T.V.; BAGDASARYAN, A.B.; ORWYA, V.V.; RU-
BINSHTEYN, Y6.3., professor; MILEVSKlY, V.Yu.; SHCHERBAKOVA, Ye.Ya.;
BOCHKOV, A.P.; ANAPOLISKAYA, L.Y6.; IlMlAYEVA, A.V.: UTESH97, A.S.;
RU-DlWvFA, A.V.; RUIERKO, A.I.; ZOLOTARYTY, M.A.; MMSESYAN, A.G.;
MIXHAYLOV, A.N.; GAVRILOV, V.A.; TSOMAYA,, T.I.; DEVYATKOVA, A.M.;
ZAVARINA, M.V.; SBNEM, S.M.; BUDYXO. M.I., professor.
Diso-assior of t1lis repor'@, krin the fcrm of deba-*,ea) E-1-f @@he rj-=67al
state climat-clc-@illal zesearoh and meth.@d6 3f dsvalop@-ng it.]. Inform*
sb3r.r7U('rMS no-3.!4.26-154 154. (MIRA 80)
1. Ch.lez--kcrrespondeLA Akademli nauk SSSR (f,@r Fedorcv). 2. Gla7nay-a
geofizichaskay-& obser7a@.ori7a im. A.I.V.--eyko7a (for Fradtechenski7,
Lebedev, Yanishevskiy, IsayeT, Rakipova, P,-lla,,@vskaya, Orlova, RubiL-
shteyn, Rudyko, Sh-.h6rbaku-,--,, Luapol*skaya, aanaya-a, Rudneva,Gavrilov,
Zavarl.'aa-). 3. Ullcraluskiy nauchno-icaledo-vate--~lsk"-.Y' g4ldrometeorologichs-
sk!,7 ianstitu@ (for Buchinskiy).
(Conticued on next card)
FEDOROV, Ye.Y,3., professor; PREDT-ECHFIISKIY, P.P.., ani
Diacussiori of th6 rsp;@.rt. (In tKa f,,)r-x of &@!.at@ll) [of Uif-- currenl,'
stat5 cllmatc@logica:i. resea:-,.---h and -,f de-,-el,--p-,ng iti. Inform.
abor. GUGMS nc.3/4:26-254 '54. (car-4 -_,) (IILRA. 8-3)
4. Vaesoyuznyy institut rastenlevodst.-?a (for Selyaninov, Rudenko).
5. Bioklimaticheakaya stantsiya. Kisic7odsk (for Boshno). 6.
skiy gosudarstvannyy urIversitat. im. M.V.I-n-mcnoso-rA (fo-- Allsov).
7. Ministarstvo putsy soobah-chenlya SSSR (for Biryukov). 8. Inatl-
tu'., ge,7,grafii Akademii na-uk SSa'- (for Gailteov, Grigorly-ev). 9. Gec-
fizicheskay-a komisely-a Vseso@@nogo geo.--aflche3kogo obehahestma (for
Eygensou). 10. Miniaterst-7t i elektr-opromy-shlennc-sti
SSSR (for Muret-o7). !I. leningr--dsk!7 gosudarat7en4yy universitat im.
A.A.Zhdano-Ta (for Khromer). 12. 'TZentralinyy nauchm-isaledovatell-
-jk arklil-z (f V'P1Scks-,L.1v. Zolctarev). 13. G,)-
-Ttt-,r Samoylenko). :L4. TSe---
sudars'-rennyy okeanografichaskiy- tusilit7xl,
traltnVy institut. prcgacizov (fcr Usman,@,@7-, 15. Inatitut
geogr,afii Akademii nwak SSSR I Institut kurorto1cgil Ui@-r
Chubuk-w). 16. ir-st:L""'ut. llmeni Sechenvqa,
Yad-tva (fcr :)-:tel'Sk-I
nnzz-'@*tla:@, Vaagezigeym.)o
cav'i)
FZDOROV, Ye.Ye., profenarn'; PRMECIIENSKlY, P.P.. itnd vt@,er@t.
Discussl@.,-a of the v3por-,; (in the form of debates) [@.,f the current
state of climat-al-igical research a-ad of, de-4-eloping it].
Informi.sbor. GUGMS noJA-:26-154 e%. Oaa,d 3) (Mlq& 8:3)
T. r
18. Dallnevostochayy gidrometeorologichs-
sld.y institut (for Sokoli ). 19. Institut, geologii i geografii Akq.-
demii xiauk Litovskay Sty@v---). 2.0. RoGb;----?-3kae u;)--a;vlenie
gldrometsluzbby (for Temnik-@@--,a). 21. Moralvy gidrof izllcheskiy Ins".1-
tul, Akademii nauk SSSR (for DmItriya,,r). 2!2. VaGayuTmyy itnstitut@
rasteniyendstva (for Malyugin). 23. Akademiy-a nauk Estonskoy SSR
(for Liedem ). 24. Akademiya nauk Armyansk-oy SSR (for Bagdasaryan).
25. Loningradskiy edrometeorologicheakiy institut, (for Milevskiy-).
(Continued on next card)
FEDOROV, Ye.Ye., profeseor, PMTECHENSKIY, P.P., and c-thers.
Dismission of the report (in the ferm of debatea) [of tho current s,@ate
climatological research and method@ of dev-vl,@plng it]. Llform.sl*r.
GUGMS no-3/14:26-1.5'4 154. (card. 4) GaBA 8:3)
26. Gosudarstvennyy gidrologicheskiy institu-'s (for Bochkov). 27. Ka-
zakhskiy nauchae-isaledo-atellskly-gidr-ameteorologicheskiy- institut
(for Uteshev). 28. Upravlenle gidrometaluzhby, Arpyanskoy SER (f6r Ner-
sesyan). 29. leningrad.,@koy's upravlaniya gidrcmetsllizhby (for Mikhallov,
Devyatkova). 30. Tbilisskiy gosudarstvennyy universitet. (for Tsemaya).
31. TSentrallnay:a. aerologicheskaya obser-ratoriya (for Shmeter).
(Climatology)
SOKOLOV, I.F.
Dust st6ft in the Maritime TerritorY. Meteor.i gidrol. no-3:45-46
Mr '57. (KLRA 10:5)
(Karitime territory--Dust storms)
3(5) PWI I DDOK ZXP141TATrOM 507/1910
Akademiya nauk 333H. Dallnevostoohnn filial, Vladivostok. Institut
goografil.
Naterlaly po fialchaskoY gaografil yuga Dal Inego Vostoka; Prikhankay-
I
okaya raynina i prilegayuahchiya k ney rayony Pri'morskago kr&Ya
(Physical Geography of the Southern [Sovietl Par Zast, Khanka
the Prl.or.Uly JL,.y) Xostow, Izd-vo
4094 kels
U%W
NA
86
I
,
,3
copies printed.
Reep. Zda.1 D.P. lCo2eBzxLkov, Doctor of Biological Sciences, (I.D.
Rikhter. Doctor of Geographical Sciences, Professor, and V.V.
Mikol'skays, Candidate of Geographical Sciences; Ed. or Pub-
21&hlng Houset PA. gavun; Tech. Md. t To. V. PAkunj ,
PVRP=t This book is intended for geographers interested in the
physical geography of the Primrs"y Xray (PmrIt1me Province).
COURAM Theme articles deal with various aspects of the physical
geography of the Priwrokly Kray, particularly the Suyruno-Khan-
@Ayxkmya plain. A paleogsoarapUls' study of the Ussuri valley
_
______
is glv&n,&s is a general treatment of the bydrography .
and climate of the Prikhankaynkaya (Khankay) plain. 'Inror-
mation is provided on the non-motall1c cdner&2s of the plain
and the rocks avall4ble for construction purposes. References
sooowpnay each article.
I/Statsenko, A.V. A Climatic Outline Of the Prikha*k-rak-Y-
Flats and Adjacent Territories 131
Dry Winds Sucoveys an a C11--tic Feature of the
'L
@-- @---Ppe Landscape of the PrikhankAY8kak7A Plain 162
j Stateanko, A.T., T.G. Chernanko. A JtydrOS*OCraVh1c Dcscrlp-
non or the Rivers of the PrikhLn;k.ypkya , Plain and
"we* or Contigoux . Region@ IT9
Atotmenkoo A.T. Floods in the Primorskly gray 254
Karentsov, &.1. Animal Life In the Prikhankaysk"a Plain$ 273
AVAILANSt Library of Congress (OB325.A45)
M b
M9139
Card 3/3
C
KLYUKIN, Hikolay Kons t ant inovi ch;, ; KORNIMMKO. V.S.,
red.; TEMOVA, T.S., tekhn-red.
(Climatic survey of the northeastern part of the U.S.S.R.]
Klimatichaskii ochork Severo-Vostoks SSSR. Pod red. I.F.Sokolova.
Moskva, Gidrometeor.izd-vo, 1960. 116 P. (KIRA 13:11)
(Takutia--Climate) (Magadan Province--Climate)
VICH, V.V.; NIVETSOVA, V.F.; ZHITYAYY.INA, N.F.; BYKADOROY, I.S.;
IVANOV, G.I., kand.sellskoklioz.nauk; GERMANISHVILI, V.Sh.,
kand.geogr.naulk, rateenzent-SOKOLOY.-I.F.. retsenzent;
KALMYKOVA, Y.T., retsenzent; LYUBOMUDROVA, S.V., retsenzent;
KRUZHKOVA, T.S., retsenzent; BOYKOVA, K.G.# retsenzent;
NOVSKIY. V.A., otv.red.; VLASOTA, Tu.Y., r6d.; MGEYU, A.N.,
takhn.red.
[Agroolimatic manual for the Maritime Territory] Agroklimaticheskii
spravochnik po Primorskomu kraiu. Leningrad, Gidrometeor.izd-vo,
ig6o. izq p. (KBA 14:4)
1. Russia (1923- U.S.S.R.) Glevnoye upravleniye gidrometeoro-
logicheskoy sluzhby. Prinorskoye -tipravlenive. 2. Vladi-
vostokskaya gidrometeorologialieskaya observatoriya (for Belevich,
Shvetsova, Zhityaykina, Bykadorov). 3. Dallnevostochnyy nauchno-
issladovatellskiy 6drometeorologicheskly institut (for Germanishvili,
Sokolov, Kalmykova, Lyubomudrova. Kruzhkova, Beykova).
(Maritime Territory--Crops and climte)
SOKOLOV, I.F.
Erroneous timing of the beginning of precipitation in V. L.
Arkhangellskills monograph "Effect of the Sikhote-Alin' on
synoptic processes and the distribution of precipitation".
Meteor. i gidrol. no.4:64-65 Ap 162. DGRA 15:5)
(Sikhote Alin' Range region-Precipitation (Meteorology))
(Aelchangellskii, V.L.)
kandidat tekhnicheskikh nauk; BESSIM, Ta.R.. Imadidat takhnicbe-
skikh.nauk
711ga-Don-
@ . .technical report on the construction of the T.J. Leal&
Volga-Dea.Canal, the TSImlyansk Hydroelectric Development &M Ir-
rigation Yacilitles: vol.4..Conereto work.* Reviewed-by IO'C6 Soko-
lov, IA.R. Beater. Makh. strol.14 &9.2:31-3 of cover 7 157.
(KInA 10:4)
(Volga-Doz Canal) (C*aerete construction)
"The beneficiation of glass mandi'with the
-Tr-mMoro
t 3.
0. Khram v and 17 SkkI0 4 A @ranl. 14, "A'41".
h.
ro. 2, 4-0(1950).-Lac 'WMuMe supplies of ng -grade
lass sands that meet the specificatious of a max. A30@
mitent of OM% to 0.055'0 has led indusuy to tum to mech'.
nproveruent of the lower grades either by flotation or by
le use Of tile 113'dr,@yclonc. The sirriplicity a' the latter
recess together with its wide aLL-aptability have been
eighty the choice of methods. Lub.
(JAS, were carricd at tile Glass bist. with tile use ofa Ily-
re,'VelimPI)f li-JIT1111i 11NIn hen rnild nfl)A.V@Antal r'C'M
'@O
0 V
1,11) Kr.,W4-19 20 June
ELECTROSLAG MELTING OF BM787 ALLOY (USSR)
Pridantsev, M. V.,.-L r-.-@5Qkglg-y .(Dec n Pd)... and A.,'. 1. Koridratlyev..
Avtomaticheskaya'avarka, no. 3, Mar 1963, 7-12.
S/125/63/000/003/002/012
The Institute of Metallurgy imeni A. A. Baykov, in cooperation with the-Cen-
tral Scientific Research Institute of Ferrous Metallurgy iffieni 1. P. Bardin
and the "Elektrostal'" Plant, has investigated the effect of electroslag melting
Foperties, particularly forgeabil.ity, of OX787 heat-re-
on the mechanical p
sistant Fe-Ni-base @rlloy. The 1000 to 1250-kg consumable electrodes made
of CDnventionally arc-melted steel were remelted under AH-6 flux [65% CaF2,
35% A12031 into 910 to i275-kg ingots. The -dlect1*os-1ag.@;ftd1tdd-alloy iodntained
0.08% C, 0'50% Si, 0.33016 Mn, 2.93% W, 14.05% Cr, 34@4%.Ni,..2.66% Ti,
1.24% Al, 0.010% B. Except for an average loss of 18% Al and 13% Ti, - elec-
troslag melting had no significant effect on the content-of the alloying elements.
Card .1/3
AID Nr- 994-12 20 June
EIECTROSLAG NEWIRG [Cont'd] S/125/03/000/003/002/012
However, it lowered 0 content to 0.004116 and nonmetallic inclusions to MOMS
compared with 0.008016 and 0.005% in the zonventionally melted alloy; the 11
content and the composition of the nonmetallic inclusions remained practically
unchanged. The tensile strength at 860 to 1200*C of the electro slag- melted
alloy in as-cast or forged condition was almost 'the same as that of the con-
.ventionally melted alloy; at lower temperatures electroslag-remelted metal
wa:3 somewhat stronger. Elongation of the as-cast electroslag metal at all
temperatures up to 1200*C was double that of the conventional. metal; at 800
to .1200*C. the forged electroslag metal had a 3DtaAO7W-g'riater elongation than
the, conventional metal. As -cast- electroslag metal in the 800-1000"C range
had a reduction of area 10 to 151o higher than that of ih'e@'Conventional metal;
the reduction of area of forged electroslag m6tal4Nati7ifouti-tim).es!.ai3'high:-as
thzLt of conventionalmetal at 800*C and 10 to 15%,Iiigher at 9Mto 110,OOC,
At temperatures over 11001C, both elongation and-reduction of area dropped
Card 43
AID Nr. 994-12 20 June
EIECTROSIAG MELTING (Cont'd] S/125/63/000/003/002/0:L2
sharply, regardless of condition and melting method, -because of the forma-
tion of low-melting boron eutedic at the grain boundaries. The notch tough-
ness of the as-cast electroslag metalUds. 50 to 60%, and of the forged metal
15 to 25 V6, higher than that of the' conventional metal @J, 16 torsion tests, theI
as-cast or forged electroslag metal in the 8DO'toII50"C range withstood 2 to
4 tim es as many turns as c onventional T etal. In ups etting at 800 -t'612000,
the as-cast electroslag metal required Wt6.2%less pressure than the con-
ventional metal for the same reduction; forged metal, regardless of the method
of melting, required 20 tG 30% more pressure than as-cast metal for the ;s.a m. e
reduction. The maximum one-stroke reduction (press or hammer) was 40%
for as-cast electroslag metal and 25 to 30016'for conventional metal; for forged
electr6fa
'lag metal, it was 15 to 20% higher than for as-cast metal. -The better
'forgeab.ility of the electroslag metal is attri@uted to a lower content of non!--
metallic inclusions and a better mhcrostructure of the ingots.-. IMS)
Card 3/3
GLOBUS, L.L.; SOKOLOV, I.G.; SOKOLOV, B.I.; LUGOVKINA, Ye.I.; GURVICH,
E.A., red.; KASINOV, D.Ya.., tekhn. red.
[Manufacture of nonmetallic building materials) Proizvodstvo
nerudnykh stroitellnykh materialov. Moskva, Gosstroiizdat
1963. 175 P. (MIRA 17:21
1. Gosudarstvennyy soyuzny-y institut po proyektirovaniyu ne-
metallorudnoy promyshlennosti.
SOKOLOV, I.G., kandidat takhnichaskikh nauk.
Methods of setting up a fit and tolerance system for the mechanical
machining of forginge. Vest.mash.27 ne.2:46-54 147. (MLRA 9:4)
(Machine-shop practice)(Forging)(Tolerance (Zngineering))
KERE-10 SH, V.V., inzhener.
Introduction of moderately progreggiTO standards v&a not provided
for V.V.Kerekesh. Vest.mash. 27 no.12:74 D 147. (MLRA 9:4)
l.Byuro tekhnicheskikh normativov Ministerstya stankestroyeniya SSSR.
(Tolerance (Engineering)) (Sokolov, I.G.)
SOKOLOV:, 1. G.
Forging and punching of rolling stock Mloskva, Gos. transp. zhel-dop. izd-vo, 194@.
266 P- (54-'@20EO) C -
1. FormnE.
TS225 - Se;
'15
733. 96
V a P. r- -nnye Ressory: @-mizvGdst-vo I Pe@rnt (F-a-liroad, C---r
z abrication and Repair) Loslova, Tran-s-zheldorizdatu, 1952.
182 p. Illus., Diagrs., Tal.:Ies.
"Literaturall: :. 180-(lSl)
c SOKOLOV, I.G.
4@.
In memory of Lev Genrikhovich Shnlrellmnn. Vop.910M.i vys.mnt.
no.1:15-23 '52. (MIRA 10:7)
(Shnirellman, Lev Genrikhovich, 1905-1938)
S 0 KO.L 0 V,
BRATICHEV, V.A., kandidat takhnichaskikh nauk, dotsent; BRODOVICH, N.V..
kandidat tekhnichoskikh nauk; VIASOV, V.I., kandidat tekhnichaskikh
nauk, retsenz6a'., redaktor; YEGOR21OV. A.H., professor, retsenzent,
redal-tor; ZOB!1111, N.P. . doktor tekhnicheskikh nau , professor,;
IVANNIKOV, D.G., kandiclat tekhnicheBkikh nwi . dotsent; ICIREIN. Y.G.,
doktor tekhnicheskikh nauk,professor; XOTOV, O.K. kandidat takhni-
cheskikh nauk; MARITENBAKH, L.M., doktor tekhnicheskikh nauk, professor.;
MASHONIN, P.A., inzbener, RUBINSHMN, S.A., inzhener, RUDOT, X.L.
inzhener, TUDIN , D.L., kandidat tekhnicheskikh nauk. dotsent,
redaktor; PETROY, U.I., Inzhener, rot-senzent; SIDOFDV, S.I., inzhener,
retsenzent; SOKOLOV, I.G., kandidat takhnichaskikh nalak, retsenzent;
BM3STOVA, TZI., inzbener, retsenzent; DOF1OKHIH, P.N., kandidat
tekhnicbeskikb nauk, retsenzent; HUST321, S.L., kandidat tethnichesidkh
nauk, dotsent, redaktor; LARIN, M.N., laureat Stalinskoy premil,
professor, doktor tekhnicheakikh nauk, retsenzent; SOKOWT, A.T.,
Inzhener, ratsenzent; GRUDOV, P.P., laureat Stalinskoy premit, dotoent
kandidat tekhaichaskikh nauk, retsenzent;DOSIM, L.L., inzhener.
retsenzent; ZOBNIN, professor, doktor tekhnicheskikh nauk. retsenzent;
BELAVEENTSEV, N.V., inzhener, retsenzent; SYCHIN, B.P.. dotsent,
retsenzent; SHKOLIMIK, L.M., kandidat tekhnichaskikh nauk, reteenzent;
L03ANOV, D.V., kandidat tekhnicheakikh nauk.dotsent, retsenzent, redak-
tor; IUMOW-N, P.A., Inzhener. retsenzent, redaktor; OBUKHOV, A.Y.,
Inzbener, redaktor; BILETSKIT. D.G.. kandidAt tekbnicheskikh nauk,
dotsent, redaktor; ODING, I.A.. rodaktor; LWITSKIT, kandidat tekhni-
cheskikh nauk. dotsent, redaktor; TUDSON, D.M., telhnicheskiy redaktor
(Continned on next card)
...... "uuK. a0ts"nt; & othert (Cqrd 2)
[Railroad man's technical manual] Taklinicheakii spravochnik
Eheleznpdorozhnik-a. Red-kollegiia; V.I. Vlasov. A.N,EgOrnov, N.P.
Zobn1n, E.F Aidoi (Glav.red.) A.V.Sokolov. Moskvr, Gos.transportnoe
Z-hel-dor.izd-vo. Vol. 12 [Processing metals at r.ilroad transport
enterprisp
,s] Obrabotka metallov na pred--pilatliakh zhelezno-
dorozbnogo transporta. Otret.red. U-P-Zobnin. 1954. 6?1 p.(,mLRA 8:11)
1. Cblen-korrespondent, &@ SSSR (for Oding)
(MOCbanical engineering)
solwl,ov, I.G., kandidat tekhnicheakikli nauk.
Setting-up of tolerance and allowance standards for drop-forged
parts. Standartizatsiia no-1:50-56 Ja-F '54. (MLRA 7:2)
1. TSentrallnyy nauchno-issledovatel'skiy institut Ministerstva
putey soobshcheniya. (Forging--Standards)
TWORZKOV, losif Pavlovich; I,:.G kaudidat tekhnicheskikh
.AOMIA-Oxl-.@ @.
nauk, retnenzent; SARGIYAV, V.S, iuzhener, retsenzent; MAHAKIN.
N.V., redaktor izdatellstva; UVAROYA, A.F., takhnicheakiy redaktor
[Pattern-makiag] Kodellnoe proizvodBtVO. Moskva, Goa. nauchno-
tekhn. izd-vo mashinostroit. lit-ry, 1956. 278 p. (HLRL 9:8)
(Pattern-making)
SCIKOLGY..,.I.vaa-Gaox&iyevicltl_LF.TIW, B.Ta.,nbLuchnyy radaktor; SIM. D.S.,
redaktor; OSTRIROV, N.S., tekhnicheskiy redaktor.
[Handbook for the young foundu vorker; on hammer forging] Spravochnik
molodogo kuznetsa; po avobodnoi kovke. Iz4.,2-oe, pereir. i dop. No.skva,
Vses.uchebnopedagog.izd-vo Mrudrazervizdat, 1957- 431 PO
(MLRA 10:5)
(Forging)
SOKOLOV, I.G., kand.tekhn.nauk
Technology of manufacturing brush-holder springs must be
improved. Alek. i tepl. tiaga 2 no-5:17-19 158. (MIRA 12:4)
(Springs Ofechanism)) (Electric brushes)
SOV/122-58-5-11/26
AUTHOR: Sokolov, I.G., Gandidate of Technical Sciences
TITLE: i7n_77'@'IMTM e Fati-ue Strength of Large Forged
L, 0
Components (Po-vysheniye ustalostnoy prochnosti krupno-
gabarit,n77-kh 'I.-ovanykh detaley)
PERIODICAL: Vestiiik Lashlnostroyeniya, 1958, Nr 53
pp 40 - 51 (USSR)
ABSTRACT: An ex-pe_rimental study of hand-forged connecting rods
i;@ade of 0.31,-,/'0' carlbon steel to determine the effects of
forging and heat-: treatment procedures on the endurance strength
is reported. A set of forgings were nade from 1 ton ingots
to form a c@onnectinG rod of 1 287 mm centre distance and
40 x 90 mm. stem cross-section with one solid and one forked
lug. Some specimens Taere hardened and tempered after
itiachining Wac etein and IuGs@ Other specimens were wholly
water--@JUen!%Iied and in another group 'the luGs and a short
length of the stem only were quenched. The effects of the
various treatments on the micro-structure are illustrated.
Specimen @3om-oonents were loaded in a push-pull 200 ton
hydraulic fali-ue machine at the rate of 300 cps. 3 million
cycles @,.ere app-lied. flost failures viere fatigue cracks and
fissures a,--rc--E the solid or @usually) forked lugs. The lug
uardl/3
SOV/122-58-5-111/26
Increasins the Fatigue Strength of Large Forged Components
attachments in the fatigue machine were
by tapered pins and expanding sleeves.
lized comDonents had the same,endurance
a nominal-stress of 7.2 kg/mm Z across the
hardening and tempering, the limit rose
tight fits ensured
As-forged and norma-
limit amounting to
forked lug. After
to 9 kg/mm 2. Compon-
ents hardened and tempered after rough machining had a limit
2
of 9.45 kg/mm Oil holes in equally treated components
redused the limit to 8.5 kg/mm P. Components tempered at
450 C had a limit 10116 higher than'normalized specimens.
Tensile test specimens cut from the stem had tensile stren-ths
bet-@,een 1;0,.? (annealed) and 69.7 k9/mm.2(hardened and
tempered@. Th'e im-oact values at room tamperature amounted to
6 and 10 kgm/cm2 for normalized and tempered specimens,
respectively, cut in the longitudinal direction (2 and 4
0
kgm/cm2 in transverse specimens). Wear tests shoTed the
hardened and tempered specimens to have half the wear of
normalized specimens. The effect of surface work-hardenin-
0
(;ard2/'3 i.--ias tested after surface rolling or si,,-aging the lug bores on
SOV122-58-5-11/26
Inc:-easin,-, 'Uhe Fatigue Strength of Large Forged uomponents
hor-izcn-tal boring mills or steam-hydraulic pressers.
Uompo-nents made of solid forgings were compared with those
in which luGs were welded to the stem by pressure butt-
weldinU laith Gas. Owin- to the number of variants, an
accelerated fatigue test procedure was yplied in which the
starting load corresponded to 5-5 &P-M in the @ritical lug
cross-se2tion at the cycle maximum and 0.6 kg/mm at the
cyc-le minimum. BverY 300 000 cycles, the maximum stressmas
increas ed by 0.4 IL)-lg/mm2 until cracks or failure occurred. The
results of these co=arative tests have led to the conclusion
that hardened and tempered lugs welded to a stem at a distance
of 150mm inside the lug have the same endurance strength as
sclid forged specimens. Surface cold viork increases the
endurance strength by about 5(ylol. There are 6 figures, 3 tables
and 2 Soviet references.
Card3/3, 1. Carbon steel--Forging 2. Forgings--Fatigue 3. Forgings--Heat
treatment
44
2 L
-Ehl 1 .6
'jig,
e;j idl
ti
oil
i
Ot
SOKOWV, I.G.
Effect of the forging reduction ratio on mechanical properties
of locomotive-axle metals. Kuz.-obtam.proizv. 1 no.6:15-20
je 159. (Forging) (MIRA 12-.9)
SOKOLOV, I.G., kand. teklin. nauk
Tubvlar axles for railroad rolling stock and the technology
of manufacturing them. Zhel. dor. transp. 41 no.4:53-55 Ap 159.
(MIRA 12:6)
(Car axles)
CHIRKIN, Viktor Vesillyevich. kand.tekhn.nauk; @r @iyevich,
kand.tekhn.nauk; URSHINEKIT, Vladimir Vasillyevich, inzh. Pri-
nimli uchastiye: BEhAVANTS37, N.V., inzh.; DOBKIN, S.Z., inzh.
KAZANSKIT, G.A., inzh., retsenzent; SMIRNOV. A.V., red.; DANILOV,
L.N., red.izd-ve; WRANOVA, I.Tu., red.izd-va; UVAROVA, A.F.,
tekhn.red.; SOKOLOVA, T.F., tekhn,red.
[Technology of car construction] Tekhnologiia vsgonostroeniia.
Pod obshchei red. V.V.Chirkins. Koskve, Gos.na-achno-tekhn.izd-vo
mashinostroit.lit-ry, 1960. 483 P. (KIRA 13:11)
(Railroads--Cars--Construction)
SOKOLOV, I.G., kand-tekhn.nauk
Mechanical characteristics of large forgirgs depending on the
forging reduction ratio of billets. Vest.mash. 40 no.6:50-57 Je
16o. (MIRA 13:8)
(Forging)
1.07
KRYMSKIY, Ivan Ivanovich; SOKOLOV, I.G.. naucbnyy red.; ROGACHEV,
F.V., red.; SAZIKOV1__M_._I*,_@@d__.'; BARANOVA, N.N., tekhn. red.
[Guide for the equipment of a training section in forging
processes] Rukovodstvo po oborudovaniiu uchebnogo kabineta
kuznechnogo proizvodstva. Moskva, Proftekhizdat, 1962. 54 p.
(MIRA 15:5)
(Forging--Study and teaching)
(Visual education-Equipment and supplies)
Somlov, 1. 0.
PHASE I BOOK EXPLOITATION SOV/6 16 2
Trubin, V. N., Candidate of Technical Sciences, and 1. Ya. Tarnovskiy,
Doctor of Tec;hnical Sciences, eds.
Kclvka krapnykh pokovok; rezul'taty Issledovaniya tekhnologicheskikh
rezhimov (Production of Heavy Forgings; Results of a Study of
Technological Methods). Moscow, Mashgiz, 1962. 223 P. 3800
copies printed.
Reviewer: 0. A. Ganago, Candidate of Technical Sciences; Tech. Ed.:
N. A. Lrugina; Executive Ed. of Ural-Siberian Department (Mashgiz):
E. L. Kolosova, Engineer.
PURPOSE: This book is intended for engineering personnel of forging
shops and engineering and design offices at heavy-machinery plants,
a@i well as for those working in sciebtific-research and planning
organizationa. It may also be useful to students at higher educa-
t1onal establishments.
Ca:@d 1/6,