SCIENTIFIC ABSTRACT SHINSKIY, G.E. - SHINYAYEV, A.YA.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001549520001-4
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 23, 2000
Sequence Number:
1
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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CIA-RDP86-00513R001549520001-4.pdf | 3.37 MB |
Body:
Tbyaol test in syphilis. Vest.van. i ders.no.3:50-51 My-je 156.
WRA 9:9)
1. Is Bashkirskogo koshno-yonerologiaoskogo instituta (dir.
P.N.Sh1shkin)
(SYPHILIS, pbysiology,
liver, thymol turbidity test (Rum))
(LIVXR MOTION TISTS, in various diseases,
thymol turbidity test in syphilis (Rus))
ILITASOV./ 1.-".; VIM, R.B.; SHINSKIT, G.B.
Serum proteins in syphilis during iWor'n.' th6ropy [vitb sawwry in
Inglish). Test.dern. I van. 31 no.3:27-31 My-,Jo '57. (KMA 10:11)
1. Is kafedry biokhtail (sav* - dotsent I.Z.Illyssov) Bashkirskogo
meditsinskogo Institute (dir: - doteent N.Y.Toroblyev) I Bashkirskogo
kozbno-vanarologicbeekogo instituta (nouchnyy rakoyoditell - prof.
G.S.Maksimov, direktor P.N.Shishkin)
(SYPHILIS, blood in,
proteins, off. of ther. (Rua))
SHINSIrY, (1.3,
7motional state of the liver durInC the Todrov-StudmitsiA wthod
of ponloillin-pyrotherapy in syphillso Testederm, I von, 32 mo,1:
23-26 MY-40 158 (X DU 1117)
1. Is Wimaskogo nauchno-IsoledovAtel'skogo koshno-ronerologichookogo
institute (direktor P*N. Shishkin).
(LIM, in var, din*
gyphills. off. of penicillin with fever ther. (R=))
(MICILIAN. ther. use
syphills, with fever, ther. off. on liver (Run))
(SYPHILIS, ther.
favor with penicillin, off. on liver (Rus))
(TRY TH3UPY, In var, die,
syphilis with penicillin (Rus))
SEIINSKTT- a-II.. kand.med.nauk; GABITOTA, R.G., nauchn" notradnik;
XXTBHTADT, U.S.
Vaccinal azzema. Trach.dalo no,12$1323-1325 D 159.
(MIRA 13:5)
1. Uflmakiy kozhuo-yonerologichookly institut I Ufimelriy Institut
vaktain i syvorotok.
(TMKL) (.%WU"X)
SHINSKIY,,-CLYs,
Familial chronic benign pemphiguo. Vest. darn. i ven. 34 no.4:
65-67 160. (HIPA 13:12)
(FEMPHIGUS)
SHIVSKIY G.z kand,madonaukj VEVERj R.E.; GAIAVOVA, G.Ve, SIVUKvrm)---
. y sotrudnik,- ZAPIMTOVA, A.P.,, mladehiy nauchrrjy
BUY nauchny
ootrudnik; CHIBIRYA M-A, A.D.,, mladshiy nauchnyy sotrudnik
Protein composition of the blood in patients with some dermatoses.
Veatsderm.i ven. no,7:21-Z7 161. (MIRA 1525)
1. Iz Ufimskogo kozhno-venerologicheskogo instituta (dir. -
nwchny -r
starshiy nauchnyy sotrudnik P.W. ShisWUn,
ditell - starshiy naucbnyy sotrudnik G.E. Shinskiyi.ruk
(SKIN-DISEASES) (ELOOD PRDTEIVS)
SHIMMY., 0. 9.1 TMZGINA, X. A.1 SHEUOVTSOVA, V. N.
Use of vitamin 3 in treating lupw erythematosus. Vest. dem. I
von. 36 no.7s64-" J1 '62. (MIU 1517)
1. Is Ufimskogo koohno-vanarologichAakogo Inatituta Minlaterfitva
sdravookhraneniya PSFSR (dir. P. N. Shishkin, nauchnyy rukovo-
ditell G. E. Shinakiy)
(LUPUS ERYTMATOSUS) (TOCOPHERM)
X
SHINSKIX G.E.
local treatment of 1upus arythematoous with h7drocortimans Injeol-
tiont. Sovzed. 26 no,12:109-13-1 D 162. (KIRA 1692)
1. Is Ufimskogo nsuchno-iseledovatellskogo kozhno-veneroIogIcb9eko$o
Institata (dir. P.N. Shishkinj kongulftant raboty - prof. N.H.
smel.?V). (IIJPUS ERnWMTOSUS) (CORTICWTZFMn)
Fm i-:,
spill.my, G.
ClJnl~,sj
37 no.4:32-36 Ap ?63.
1. Ufimqkly kozhno-vener,)2oglc-he3lcly ln!3-.itul. (d':-.
SHINSKIYj G.E., kand. mede nauk; VEVE.R, R.E., kand.med.nauk; CHIBIRYAYEVA,
A.D.; ZAPFO!,ETCVA, A.P.
Functions.1 state of the liver In lupus crythematosus. Vest. derm.
I ven. 37 no.9%1/+-16 S 163. WIRA 17sti)
1. Ufimskiy kozhno-venerologichookly institut (dir. P.N. 3hishkin)
Ministeratva, zdravookhrananiya PSM.
SHINSKIY,-G.E.1 MIKHAYLOVA, Ye.A.; SHEKHOVTSOVA, V.N , FELIDMU, I.Ye.;
UBMVA, R.G.; TELEGINA, K.A.
Experience with outpatient service in lupus arythematosue,
Sov. med. 27 no.ltl5l-153 Ja 164. -r9*M-l7sl2)
1. Ufizekly kozhno-venerologichaskly Institut (direktor P.N.
Ihiahkin nauchnyy rukovoditall G.E. ShinBkly, konsulltant -
prof. H.S. Smelov).
SIITNSKIY, G.E.; LFVKOV, A.A.; KALAMKARYAN, A.A.
Benign lymphadenosis of the skin. Vest. lem. t ven. n%l:
9-16 165. (MTFA
1. Uflmskly nauchno-iseledovatellakly kozhno-venerolcgicheakly
Inatitut (dlr. P.H. Shishkin) Ministerstva zdravookkiranen"ya
RSFSR I otdel dermatologli (zav.- prof. N.S. Smelov) TSentral'nogo
nauchno-issledovatellskogo kozhno-venerologicheskogo InstItuta
(dir, N.M. Turanov) Mlnlaterstva zdravookhranenlya 650R, Moskva.
R-IR-W-Mil
WIT VKZVMTNE~ f
VEDEftNIKOV, V.A. S I DOROVA. V.N.;
-fAR'YASJS, Kh.D.; L7-;KCsl,', A.A.
At5tranta. Vest. derm. -I ven. 37 L,-,.4.-77.82 Ap 16110
(MIRA J?:5)
4
A 21:.,- ,.Z; D o I dy rev V. V. Do 1 7. j,.
Inv---ntiLatcn cf '~.2
I A inC: Prccocin (-f Load
rdye pvct-cozoa .-tarcnilm. ol~n,%Ilala nv-..ntsa)
Nauchl,yyc vyc~:1:2y i
27
Provicus r-apera (,,,?f 1, T,ef tj~,~ r_.4 of
tl.-~---ial decor.-,~,osition of lead oxalate .Ie,),--ndo on ",:.- 'i--O
whicl. liaz pas,.,od -,ince the ;~-rod=tion of the pr-_a--atic~n.
7roch 12ad oxilato decomposcs faster thatri aZ;cd o-l..Iatn-.
f2l~e var-iation of t~'e decompozition cori;tannts de-;c~Aiii:: on
tc,,lpcruf.ur'-, (DiaL;rar-1, T-,ic 1) is inveoti--ated in '.~dE; -r.
7111,c decu:r,,,(;citi-Dn conatant vtan calculatc-4 accr-'.l-:nC to V.2
..t.n
P~auations !-a - e-~' and
nl:""on the basis of the valu,~,s datprmin-d. K df,,crnaces
with a rloe of temperature, and a~:in4; -.-thcrea- tl.r;
cho-.7s an increaoe, The aginf; pruccan can b,, descrit-A
Q
11--y a to-okit~-tic, equation with the cxpr)nL,;.t n of.-rtr 1. n=l
Card 1,, 2 d~motcs a r..,action of t!-.,-. firzt- or(.!-z.,r in
ation
Inventi,r of t%c-
,
rate is ~,)ron-,)rtional. to Cie portion of tll,,~ 11,A -ct
r eap. t iT 1,4i3 also) hold for t!..,2
is t).Q elir,lation of
In this flie reaction r.,.to mu3t be prol,ortif-,nal to t-:3
n=ber of d.,-!~~cts otill at Vi- roz,---ctive mo:.. ;A. if
lead oxalate is ti---ate(I ultr--oonicS t'.e a_-iii,~
is accol~-ra'.-2d. In thi-- ca--c dislocatio.,--- are cli"-i-
nated in the rame -lidi-TIC mirfam T&Ahisloownaellpolygor..,L::2'.ion".
Thene proc23scS ta%-a place aloo ~tt 1r-.., tr-:-:. ---raturco and
,ri"h li't1a e:;er- expen,11iture. are 2 f-
aab IQ
all d 5 of ~-Ovie t
-
,
ASS-'-IATION: Kafe,lra non-r-aniches"my khimii Tomo%orro
.xniver3iteta im. V. V. K-a-b-s'.c-ta (C.'-.air of
3try of Tj7..7,!r State Umllvorzity imcni V. V. Vuybyo',.--v)
SIPB~'.II2TEDt Jurv
Card 2/2
L 24520-66 EWT- ( I !' /TA - - - -_ - ----I
ACC NR1 AP6009527 (N) SOURCE CODE: UR/0413/66/000/005/0049/0049
INVENTOR: , B ;2 :5
Ard.vahey,,,_j,,,_j RyLev, P4Rttj,__A"-;
!~anykina, T. -D.; P!~A. Oellerj A,_
ORO: none
TITLE: Method of stabi3-tzation of sticky material announced by the
Institute_q,r P 01 10 Chemist Institut fiziko-
.i_~ich.eskoy khimli AN BS51Yr__iClCk8w_22__, -No. i794oT
SOURCE: Izobretenlya, promyshlennyye obraztey,, tovarnyye znaki,,
no. 5, 1966, 49
TOPIC TAOS: Insect controls stabilization
ABSTRACT: An Author Certificate has been issued for a method of
stabilizing sticky material containing colophony for Insect 09D
M=
To increase the stability of the material, the colopho~y ii-modif ed
at 170 to 300C with 0-5--2% zinc chloride. mr]
t
SUB CODE: 11,0 07/ SUBM DATE: 22Jan65/
Card 1/1 BLA'__ um: -547.914.2-171:632-"2
CZECHOSLOVAKIA / Human and Animal Hlorphology (Normal S-5
ani Pathological). Blood-Va3cular
System. Vessels.
Abs Jour: Ref Zhur-Riol., No 17, 1958, 79130.
Author : Jakubc ova, 1.
Inst :Not given.
Title :Evaluation of the Anatomical and Functional
Changes After Ligature of the Ductus Arteriosis
Botalli.
Orig Pub: Bratisl. lekar. listy, 1957, 1, No 11, 641-647.
Abstract: In children with persistent ductus arterilosis
Botalli, indications decreased on a velocipede
ergcLaeter to(Wifo of of the norm. in the period
of puberty. After the ligation of the ductus
arteriosis Botalli, the indibations increase sig-
nificantly for a half year, and in the second
year can achieve the level of healthy children.
Card 1/1
38
SHINMINNYSMI I.- PUMPER, Yo.Ya., red.; IOYE, Yu.M., red.; MURASHOVA,
-14
6' red.
[Blectron tube as a device for physical measurer-onto] Ilektronnaia
lampa kak pribor dlia fizichoskikh izmaranii. Moskva. OosAzd-vo
takhniko-teoret.lit-ryg 1959o 343 pe (MIRA 12:12)
(Electron tubes) (Electric measurements)
SHINTM, L.M., kandidat takhnicheek1kh nauk.
Power transformers having aluminum windings. Test. elektroprow.
28 to.4:43-46 Ap 157. (XLRL 10W
1. Wookovskiy transformatorny7 zavod.
(XIectrie transformers)
- -SHMAKOF-.L-.T.-
Bus depots made of slag concrete. Ayt. dor. 18 no-3:30 My-Je '55.
(Kotor bus linve-Stations) (NLRA 8:9)
-B OGDA 10 V-,-O-.S -do- k-t o -rt e k -hn i c h -es kd-k-h -- n--a-uk-. -pr-o f--a a -aor.- r--e d.-a -kt or -;- B-R- AN D-, V- . Tu.
kandidat tokhnicheakikh nauir, reds kt or:. ZZRKACH, T.G.. kandidi't
takhaichookilch nauk, redaktor; DOLIVO-DOBROVOLO SKIT, T.T., doktor
takhnichaskikh nauk, redaktor; ZAZHVATKIR. T.K., radaktor; XACHAN,
I.N., kandidat takhnichaskikh nauk, redaktor; OLIVSKIT, V.A.,
kandidat tekhnichaskikh nauk, redaktor; IOKONOV, M.F., kandidat
takhnichaskikh nauk, radaktor; PARYZNDV. A.M., kandidat takhnichaskikh
nauk, redaktor; PODUK, A.K., redaktor; POLIVANOV, K.Tu., radaktor-,
YIMLISHTNTN, G.I., kandidat takhnichaskikh nauk, redaktor; YOKIN,
Ts.I., kendidat tekhnichaskikh nauk, redaktor; &rny 11060"
redaktor; TUDINICH, G.I., doktor takhnichaskikh no . redaktor:
BYXOT, G.P.. redaktor; TZZD0KOVA. H.L.. redaktor izdatelletys;
ZVJUSON' I.M., takhnicheskiy radaktor
[Proceedings of the.Third Scientific Session of the Institute of
Mechanical Processing of Sconomic Minerals] Trudy III usuchno-
takhnicheskot assail institute Kakhanobr. Moskva, Gos.nauchno-
tekhn.izd-vo lit-ry po chemoi i tsvetnoi metallurgii. 1955.
758 P. (MLRA 10:8)
1. Ieningrad. Nauchno-iseledovateltakiy i proyaktnyy institut
makhanicheakoy obrabotki poleznykh iskopayesykh
(Ore dressing) (Flotation)
LISELV, B.K., otv.red.; -SHINUKOV, H.I., redo; SMI A@* tekhnsrado
(SinteriAg finely pulverized concentrates of Krivoy Rog Iron-
bearing rock] Aglomeratsila tonkoismellcheniWkh kontsentratov
thelesist7kh porod Xrivogo RogR Leningrad, Izd-.Siuro takim.
Inform. In-ta makhanobr, 1956. ;0 p. (Leningrad. Nauchno-isele-
dovatellskii I proskUyi institut makh%nicheskoi obrabotki
pole!snykh iskopaepykh. Trudy, noo97) (MIR& 13z6)
(Sintering) (Krivoy Rog-Iron ores)
LUTHORt KURjLSH,J..J., SJ1INYAKOY,U.1., ELIASBK%G~6~1. PA - 2392
"Makhanobr" !nstii_u~te.
TITLEs The Problems of Sinter Production. (Problemy agloseratsionnogo
proizvodstva, Russian).
PERIODICILt $tell, 1957, Vol 17, Nr 2, pp 106 - 114 (U.S.S.R.)
Receiveds 5 / 1957 Revievedi 5 / 1957.
ABSTRACTs In connection with the gradual exhaustion of the rich ore deposits
and an increase of the yield of poorer deposits, the great
quantities of ore have now been subjected to the processes of
agglomeration and sintering. At present the developments resulted
in the feed of only two raw materialsi the agglomerate and the
coke (instead of 4). It is shown that it is most useful to build a
sintering area of 200 qm in the case of new constructions. The
"Mokhanobr" Institute developed this project of such a plant and
made the following Aemandes perfection of the technological
sintering-process, improvement of the construction of the plant,
far-reaching automation of production, decrease of cost price.
The following items are then dealt withi the impe'rfections of the
present sintering-plante; the now technological scheme where the
averaging of the charge, the dosing of the fuel, the heating of the
charge, and the cooling of the charge layer are described; con-
structional solutions for the plant, the now equipment, and the tech-
Card 1/2 nical economic indices. Completion of such an experimental plant
The Problems of Sinter Produotion.
A - 2392
and the construction of new machinery for the sintering process
in 1958 - 1960 are demanded. (2 tables, 5 illustrations an& 4
citations from publications in Slav language).
AWOCIATIONs Not given.
PRESS"MED BYt
310" iNTED t
IVA. 'AULE j Library of Congress.
YILVZEROVA, YO.K. ; SHINYANSKAYA, Ts.Ya.
Treatment of infectious diseases of the nervous system by massive doses
of vitamin B, and the peculiarity of its action on pain syndrome. Vra-
chabnos delo 27, 587-92 (columns, not pp.) '47.
(CA 47 no.2lzll537 '53)
BMARCHEMV, Mikhail Alakeendrovich; ROZEMUT, Koisey Aronovich;
SHMANSKIT,.A.V., red.; KANIN, I.A., otv. so vypusk;
SUIRARTYA, R.A., takhn.red,
(High-owed reversible electric drives with magnetic amplifiers)
Bystrodeistvuiushchle reversivnya alektroprivody a magnitnymi
usiliteliami. Moskva, 1959, 40 p. (Kookovskil don usuchno-taklmi-
chookoi propegandy. Peredavoi opyt proizvodetya. Geriia: Blektro-
anergetika, Vyp. 1). (MIRA 13:11)
(Slectric driving) (Magnetic amplifiers)
PHASE I BOOK EXPLOMATION sov/4802
Bulgakov, Aleksey Alekseyevich,, Kikhail Kikhaylovich Sokolov, and
Aleksandr Viktorovich Shinyanakiy
-I t
Artomatizirovannyy elektroprivod Automated Electric Drive) Moscov,, 1959. 69 p.
(series: Moskovskiy dom nauchno-tekhnicheekoy propagandy. Peredovoy opyt
proizvodstva. Seriya: Elektroenergetika, vyp. 3) 5,000 Copies printed.
Sponsoring Agencies: Obsbchestvo po rasprostraneniyu politicheskikh i nauchnykh
znaniy RMR; Moskavokiy dom nauchno-tekhnicheskoy propagandy imeni F.E.
Dzerzhinskogo.
Ed.: A.A. Tayte; Resp. Ed. for this book: G.G. Yatsenko; Tech. Ed.: B.A.
Sukh rev a*
PURPOSE: This booklet is intended for technical personnel concerned vith the
automation of electric drives.
COVERAGE: The article by A.A. Bulgakov entitled "Electronically Controlled
Adjustable D-C and A-C Electric Drive* presents a detailed description of the
various devices used in the automation of electric drives. The artic3A- by
Card 1/2
Automated Blectric Drive S0V/4ft2
M.N. Sokolov and A.V. Shinyanekly entitled "Adjustable Induction Electric Drive
With Saturable Reactors in the Stator Circuit" contains a detailed description
of this type of automated drive. The authors conclude that the latter drive has
certain definite advantages in a nvxber of low-power production processeN as it
assume the adjustment of rotation speed vithin given limits during steady opera-
tion In the vhole range. No personalities are mentioned. References accompany
booth articles.
TAUS OF CO S:
Bulgakov, A.A. Electronically Controlled Adjustable D-C and A-C
Electric Drive 3
Sokolov, M.N., and A.V. Shinyan My. Adjustable Induction Electric
Drive With Satarab1e__R_e_a_cT6_r-s_fii_the Stator Circuit 39
AVAnABLE: Library of Congress
Card 212 JP/rm/A"
2-15-61
BOYARCHIINKOV, Kikholl Alsksandrovich; JHWAUM1,Ajoksandr Viktorovich;
ROWAN, TA.B., red.; BOMOV, N.I., takhn.red.
[Kognetic amplifiers] Magnitnys usiliteli. Koskyap Ooseenerge
Izd-vo, 1960. 54 P. (Bibliotaks alaktromonters, no.30)
(xIBA 140)
(Magnetic amplifiers)
I I Iles
s/196/63/000"240'G01/033/035
Sl94/EJL55
AAJT11ORSt Sokolov, M.M.. Shinyanskiy, A.V.t and Maaandilov, L.H.
TITIEt A pick-up for measuring the acceleration of rotating
shafts
PERIODICALs Referativnyy zhurnal, Elaktrotekhnika i energetika,
no.1, 1963, 5-6, abstract 1 K 29. (Tr. ~Josk. energ.
in-ta, no.38, 1962, 87-96)
TEXT: The construction and theory'of a atrain-gauge
accelerometer for measuring angular acceleration and dynamic
torques on motor shafts is described. There are two measuring
wafers each with a resistance strain gauge attached. One end of
each is firmly fixed to a sleeve mounted an the motor shaft (or to.
a lay-shaft). The other end of each wafer is connected through a
holder to an inertia disc mounted on a rolling bearing. Th~
resistance change of the strain gauge is, within certain limits,
directly proportional to the strain of the wafer. The following
equation is derived for the relative change.in resistance of the
strIain gauget (d2C~,/dt2) + w2C H M (t
Card 1/2 0 R AB
A pick-up for measuring the s/196/63/ooo/001/033/035
E19VE155
where. c R is the relative strain of the wafer; w0 is the natural
angular frequency of oscillation of the accelerometer; H is a
magnitude which depends on the dimensions and modulus of elasticity
of the wafer material; and ~j aB (t) is the dynamic torque of ~he
motor. The instrumeni measures the relative change in resistance
of the pick-up caused by the sum of the oscillations, and each
component of the oscillation has its own phase ergor and amplitude
distortion. The accelerometer can be used to record the dynamic
torque curve on the shaft during both rapid and gradual changes in
torque. The natural frequency of the accelerometer should exceed
the frequency of forced oscillation by at least a factor of 10.
~Abstractorls note: Complete translation.)
Card 2/2
SOKOLOV, M M, doktor tekhn, nauk (Wokva)l SHINYANSKIY, A.V.p iftzh.
Nook-va); WANDILOV, L.B., inzh. (Mbskvi)
Technologiftl and economic basis for the application of
induction motor driven vith saturable reactor control in
various fields. Slektrichestva, no.11:31-35 N 16%
(KM 161 U)
Torque li,-,, tu t j cr, r, t'%c- 3 t-,, iL
nous motor. lz-i. vys. uche~. 2a-.-.;
1. Lafridra
oskovs~cq.-Q
--n,~rget -he3kcj,r, r~.jt:
CHILIKIII, Mikhail Grigorlyevichl SOKOLOV, lUkhail Mikhaylovicb;
gLMUSKIY, Aleksandr Viktorovich; MILOVZ0FOV, V.1.0
kand. tekhn. nauk,, retsenzentj IL'IBSKTY, N.F.p kand.
tekhn. nauk,, red,
(Asynchronous electric drivo with saturable reactors]
Asinkhronnyi elektroprivod s drosseliami nasyshcheniia.
Moskva# Energila, 1964. 239 p. (MIRA 17:12)
A!-. V -i.':.
9 4.
SOKOLUI, M.M., doktor rekhn.*aukp prof.1 MASANDILOV, I.B., "sh.;
SHINTANSKIT, A.V.p Insh.
Study of tka electromagnetic -aransiente of ,joynchrocou3 motore.
Keldr1ohestya rio.1210-45 D 165. (MTRA 18G2)
1. Moskovskiy snargeti2hojokiy, instit-J..
SOKOLOV, Mikhail Mlkhaylovlohl LIFATOV, Dinitrly Nikitich;
SHIITYPIISKIY) A.V.., red.
(Elcctrt~ drivos w)d electri,- power supply of indistrial
enterprlses) Elektroprivod I elektrosnabzhenie promyshlen-
nykh predpriliatii. Moskva, Energiia, 1965. 4.40 p.
(MIRA 18;8)
SONOLMV UJLp dOL-tor takhanaukp prorl WIIMARM~lr. AV., Inalso
AW=Iwmous aboho mmtronod oloatria drives In tho abomical
4rw%lk trys MaktrotoUnike. 36 nont'2.3,1 X %5o
(MMA 2OsU)
.....................
t:
r
no I;
A~ li5.
KONONYUK, G.Ya.; SHINYANSKIY, K.A.
Cattle trichomoniasis control on the farms of Donetsk Province.
Teteriuariia 39 no.11:25-28 M 162, OCIRA 16: 10)
1. Direktor Donetskoy oblastnoy veterinarno-bakteriologicheakoy
laboratorii (for Kononyuk). 2. Zaveduyushchiy otdalom para-
zitologii roaetskoy oblastnoy veterinarno-bakteriologicheakoy
laboratorii (for Sbinyanskly).
Lo A#
"Inversion Phorimena In Octectorn rit Ultra-lli-h Z*.oar. ~,,, , or&
i I'co~-Otl. Fin., ~~.O. 10, 1~1'40. :2)r., ~;hair, ?hy,Acs, ?nd ..cd. 1 '~~39 -
0 -.-~ -.
F4
Jan 53
Neisurement, of the i>ropaption Velocity of
Ultrasonic Waves in Rubber," N.F. Otpushchennikov
an4ft. A. Shinyanakiy
Zhur Tekh Fiz, Vol 23, No 1, PP 32-35
Used the vedge method to measure the propagation
velocity of longitudinal ultrasonic oscillations
in rubber-like materials. Measured the velocity
in several rubber samples. Measurements vere
made at a frequency of 3,225 kc. Submitted
10 June 52.
267T94
yl q q
Ii _ ~ 11 "
.-I- I . . . -11 - .1. -
1.
tr~
--- i .
S"1T,V\N "A-V-,
SUBJECT USSR PHYSICS
AUTHOR SIHJANSKIJ,L.A,, SOLONIKO,V-N,
TITLE The Absorption of Ultrasonic
of the Elastic Properties of
PERIODICAL Zurn.techn.fie, 26, fasc,10.
Issued; 11 / 195T
CARD I / 2 PA - !r6o
Oscillations as a Characteristic
Rubber.
2302-2302 (1956)
In the present work previous investigations of this dependence (L A tSINJA1fSKIJ,
~urn.techn.fis, 24, 851 (1954.1) were continued up to the point of the breaking
of the samples. Measurings were carried out at room temperatures and at 2500 kc.
Several mixtures which had been produced by various kinds of vulcanization pro-
cesses were examined.
The characteristic properties of rubber are satisfactorily explained if the con-
ception of flexible chainlike molecules, which are formed by the transversal
connections of a spatial lattice is taken as a basis. The individual parts
(segments) of the molecular chains of the not deformed rubber are irregularly
orientated, In literature these parts are considered as mechanical "dipoles"
which endeavor to orientate themselves in the direction of the exterior de-
forming forces.. Herefrom the conclusion is drawn that the deformation cf rubber
may be looked upon as a 11pbenomenein of mechanical polarization"
In the case of a onedimensional extension, a deformation law is derived which
agrees with experimental data within the total domain of extension until
breakage occurs, "Mechanical polarization" is accompanied by a modification of
the order of molecular chains, and these modifications increase the absorption
-0
Zurn.,techn,fis., 26, faac.10. 2302-2102 (1956) CARD 2 / 2 PA - 1560
of ultrasonic oscillations
The influence exercised by exxension on the absorption coefficient is sh,:wn in
a diagram, The characteristio. sbape of the curves makes it poss-lble to draw
conclusions concerning the occurrence and the development of the crystalline
phase in the samples investigated The diagram 9howa that with-in a wi4e range
of relative length absorption increasen with an increase of the duration of the
process of vulcanization
The data available lead to the conclusion that the abnorpt-Jon coefficient of
ultra sound may serve an a characteristic of the degree of ~:rystallization of
rubber and its mechanical properties. The tensions and straLn5 cccurring or, the
occasion of the deformation of rabber can be comparel with the correspondinE
values of the absorpti3n zoefficient of the ultrasonic os:illations
INSTITUTION:
WAMVBKIY, L.S.; -SHINYARSKITIj6A----,-
Imfluence of ultrasound on liquid aqueous extracts. Ned.prom.
14 no-3t38-41 * 160. (MIRA 1316)
1. Xharikovokly farratoortichaskiy InstitUt.
(ULMUSONIC WAVIS-PEITSIOLDGICAL I
(MWGS--PRSSMVATION)
ZIKOVA, N.Ya. [Zykova, N.IA.1; KAZARNOVSKIY, L.S. [Kazarnavalkyi, L.S.);
SOLONIKO. V.11.; SHIIrLANSKIY, LA. [hynianolkyl, L.A.j
Preparing extracts with the use of ultrasonic waves. Farmatsev.
zhur. 16 no.4tl5-16 161. (MIRA 17:6)
1. KharIkovskly farmatsevticheskly institut.
7hp qlronsilm ni r q t t I v r e r u w- -1 L"
anti n v P r, ohn I i n r L i
I t
I.-ith dichloroothanet the aqueous part was riltered with -*at= adde-d
i ')~ - f I:'. ra I. - .F 1 7, P ; --r ~ '.,i. I ;, r ad r-nFt 1 i H war a nhtil i no rf Tosla
-ard ~/ .-'
1) V
T
3936'
.N.-iman'A Ship w.and
Vl%,V)
---------- 7-- 14" J111Y4 ION, P.-
Mr 7r
B. T. R. r.r flUld" In' folln-ing a --o 1121 of If tech-
V. 3 No. 3
Affmi(m in Solid
Mar. 1'954
Metals- Metal-
Ya.
"Invest-,,~al,in- the Diffusion of lro,-. -7,i ir,-.-.l-,','ickel a.,,,d Iron-7'01.,-b,-L-mLi
Alloys." Cand Ph7s-'Eath Sci, Inst of .1 PlWsics, :Ioscow, 125l..
Ido 5, Har 55)
So: Sim. io 670, 29 Sept 55 - Survey of Scic;itific an.. '.L'echnl*-.cal Disscrt.-.-ti-crx
Defended a~ USS,' !Uj~.er Educational Institut"ions (15)
USSR/Physical Chemistry
Card 1/1
Authors t Neyman, M. B., and Shinyaev, A. Ya.
Title 8 Use of electrolytic buffing for the removal of metal and alloy
layers during the detormination of diffusion coefficients
Periodical S Dokl. AN SSSR, 96# Ed. 2. 315 - 318,, KAY 1954
Abstract I The method of removing metallic layers through electrolytic
buffing enables a direct determination of the diffusion coeffi-
cients. Using a 60-% sulfuric acid solution and a lead cathode
at a current of 5 - 7 a/cm2 for a period of 10 seconds the
authors obtained a glossy surface of the tested apecimen and the
removed layer had an unifom thickness of several microns. The
uniformity of the removed layers was measured with an optical
indicator. The moasurements showed that the electrolytic buffing
method warrants a constancy in the thickneeb of the removed layers.
Four USSR references since 1937- Graphs.
Institution I Academy of Sciences USSR, Institute of Chemical Physics.
Presented by s Academician A. 11. Frumkin, Uarch 9, 1954
'OjU 4%zrA 6 - rlrj-'k
'7) Y
I
WMPhysice Chemical physics
Card 1/2 Nb. 22 - )1/54
Authors I Neyman, M. B., and Shinyayev, A. YA.
Title Diffusion of iron in iron-nickel alloys
Nidodiera I Dok. A11 SSSR 102/5, 969-M, Jun 11, 1955
Abstraot i An investigation was conducted to determine the offset of component con-
centration on the magnitude of the diffusion coefficient in a binary system
(Fs-41i) characterized by the absence of intermetallic compounds. By
determining the activation energ7 of the process of iron diffusion In
different a.1loyo of the Fe-11i system it became possible to determine the
change in magnitude of the energy barrier which must be overcome by the
diffused atom during its migration from one node of the crystal lattice
Institution Acad. of So., USSR, Inst. of Chem. Phys.
Presented by: Academician I. P. Eardir, Januar
1955
Card 2/2 Pub. 22 - 31/54
1-Periodical i Dok-. AN SSSR 102/5, 969-972, Jun 11, 1955
Abstract t of the alloy to another. The remdts are analyzed. Twelve referencess
7 USAs 2 GermAn and 3 USSR (1936-1954). Diagrams.
-5) H / A/ ~ 14 Y 6- '/~ 14 Y, -
USSR/ Chemistry - Physical chemistry
C&A 1/1 Pub. 22 - 27A6
Authors Neymanp M. B., and Shinyayev, A. Ya,
Title The diffusion of iron in iron-m-olybdenum fusions
Perjodical Dok. AN SSSR 103/1, 101-104, Jul 1, 1955
Abstract Studies were conducted to determine the coefficient of diffusion of iron in
two different systems one of which is characterized by the formation of a
chemical compound and the second as nonproductive. Results obtained during
measuring the diffusion coefficientr of Fe in Fe-Vlo fusions at temperatures
of 1106, 1.148 and 11830 are described. The magnitude of the Fe diffusion
coefficient was seen to be docreasing with the increase in percentage con-
tent of Mo and reaches a minlrain at a point corresponding to the chemical
composition of Fe Mo . 7he relation between the mobility of the diffusing
atom and the chemica? forces between the atoms in the crystal line la-.tice
of the fusion is explained. Five references: 2 USA and 3 USM (1948-1955).
Graphs.
Institution : Acad. of Sc., USSR, Inst. of Chem. Phys.
Presented by : Academician I. P. Bardin, January 8, 1955
24-9-8/33
AUTHURS: Kornilov, I. I. and Shinjoyev, A. Yr.. (Iloscow)
TITLE: On the relation between diffusion ~;rid 'aebt resist.~.nce
alloys of the nicicel system. (0 avyazi mxzndu
diffuzi,yey i zharoprochnostlyu v splnva--4 aikul(~;,fjkii
sistem).
PERIUDICAL: Izvestiya Akademii Nauk SSSR, Otdeleaiye Tekhniches*,.ikh
Nauk, 1957, No-9, PP. 50-55 (USSR)
AB3TRACT:
Card 1/4
Measurement of the activation enert;y of ~he diffusion
proces3 is one of t~ie methods of determdninL: the ~-nerL~y of
the bonds of the atoms in the crystal lattice of metu-z~is
(Ref-5). In this paper some results are described of
investigations based on physico-chemical conceptions of
the relations between diffusion cad heat resistance in
alloys. The followinE; systems of heat resistant alloys
were investieated: binary (Ni-Ti), ternary (Ni-Ti-Cr)
and quinary (Ni-Ti-Cr-VI-Al); the alloys were prepared by
L. I. Pryakhina. These systems were the subject of
earlier investigations by one of the authors end his team
(Refs. 2-4); it was shown in these p3Ders tfiat the heat
resistance of alloys increased graduaily with increase of
the number of components. To avoid the influence of over-
saturation of alloys by allojinS additions, saturated
solid solutions of the above mentioned Systems were chosen;
24-3-- 7
On the relation between diffusion and heat resistance in ;'110:ir
the nickel system.
in this state they had predominantly a poly-~,--dric
with a finely dispersed decomposition of the solid
All the selected 81loys were subjected to homoCeaize".1011
annealing at 1200 9 with subsequent reduction of tile
temperature to 800 C. To eliminate the influence of
various concentrations of components on the diffusifjr.
characteristics, the authors selected as d.iffusinL
substances an element which does not directly eniter
the investigated alloys. Furthermore, it was nect:s3z----~i
thL-t the diffusion coefficient of the diffusinE
should be larger than the diffusion coefficient of"
f i~ ni
component of the alloy. Only with these conditions
fulfilled is it possible to chanCe the bond force3 b,~n-aeen
the atoms of a crystal lattice on chanEing over froi~i one
olloy to another. These requirements Eire fulfilled by iron
Z for this purpose it is possible to use tije rz:J`Lo-~,ctive
Fe 9. The diffusion coefficient was me&sur'ed by means of a
method described earlier by one of the authors of this
paper (Ref.9). The values of the diffusion coefficients
card 2/4 were measured for iron in the selected alluys i!t Le.-iperLtures
24-9-8/33
On the relation between diffusion and heat resistance in alloys of
the nickel system.
between 920 and 1250 OC for diffusion times varying
between 500 and four hours. Figs. I and 2 give the
results relating to the specific activity a of the
radio-active atoms of each of the removed layers as a
function of the square of the distance of these layers
from thL specimen surface for 960 and 1218 C. The cbenge
in the diffusion coefficient on transition from the
binary alloy to the ternary and quinary alloys at various
temperatures is plotted in Fig-3. The graph, Fi6.4, gives
the temperature dependence of the coefficient of spatial
diffusion of the iron in the investigated alloys. From
the inclination angle of the experimental straight lines,
given in Fig.4,the activation energy and the magnitude
of the pre-exponential factor for the investigated alloys
is entered in Table 11 P-53. Table 2 gives the high
temperature strenqh of the investigated alloys in the
range 1050 to 1330 C. It was found that the diffusion
coefficients have the highgst values for a binary alloy.
At temperatures up to 1100 C the value of the diffusion
coefficient is loweSt for the quinary alloy but for temp-
Card 3/4 eratures above 1100 C the diffusion coefficient of
24-9-8/33
On the relation between diffusion and heat resistance in alloys of
the nickel system.
quinary alloys is equal to that of ternary alloys and
at eyen higher temperatur#s, of the order of 1200 to
1250 C, it becomes higher than the diffusion coefficient
in the ternary alloy, The activotion enerej, colculated
on the basis of the experimental data, amounted
respectively to 73.1, 84.0 and 91.3 kcal/S-atom. fo-- the
binary, ternary and quinary alloys of the nickel system.
There are 4 figures, 2 tables and 10 references, all of
which are Slavic.
SUBMITTED: April 29, 1956.
AVAIT-A I : Library of Congress.
Card 4/4
DITACHEM, Petr Tefinovich,prof.. doktor tekhn.nauk; DRITS, M.Te., kand.
tekhn.nauk, retsenzent; SHY~TjAAR9, kand.fiz.-mat.nauk,
red.; BALARDIN. A.7., AT. =z-va; S TA, T.F., takhn.red.
[Using radioactive isotopes In technology] Primenenle radio-
aktivnykh Ixotopov v takhnike. Xoskya, Gom.asuchno-takhn.isd-vo
timihinostroit.lit-ry, 1958o 214 p. (KIRA 12:2)
(Radioisotopes--Industrial applications)
4
G Y"q
t 1 4; t 0"a
Q
A0 Ya. Of al 10:1E if fj'zil
the diffuslon iYe
AUTIJOR: ion of (-jssledovL`n
Investiga..0 i -titanIuM.
TITLE` nickel-ch M um nike 11 -khr Ora- t it an) -
.6plavakh sistemY ii -Sauk SSSR Otdclen3-'ju
itiya Al"Fidel '143-145 L1101, ow-r.,)
?ER10D1CP-'L'- :Ezve' 581 "0-21 PP'
Nauk, 19 ,:Ll().v at-id the L'U' "Oeraturu!
ELper Of X'"I th at elevated te'~!Ua" of
r2. In an earlier Pl,t the streng of the 1-13i;a` red
ABSTRAC it Was shovin thl ~ the chanGe 3.tions refer
is directl'Y related tc ~-* The invest"G" the nickel
ffUE;iOn cloefficient dual allo:fs of
the di out on indiv-1 idered it of f
.e r I author coris
,arrie( the tioAtion 0
to vieT -refore, more detailed inve'n " to
and the 'M SO Lio
.te
system I rry out a ckel sYs teristics ac a
interest to ca of the U, DrI charac tre
the diffusiOn in alloys :, diffusil
aGes in the )1jase structure
follovi the chal Ltion, the I the results are
function of the COMPOS! :E, this paler "'e system
of t'aq alloys- in allOYS Of tlt,,It. Ilicro-
structure ion studies
of the titanium 00' tjiatiOns
wiven of diffu .1 other iVVvD LD 20 ;.,t.%
. as a functiOrl
i-Cr-T3. 1 of
1 ctural _ray structural allc or content cratures ur,
1
stru t,,;t in the case of a at
have rhownlity of titani= is 2.2 vit
Card 1/3 the Solubi
oil th
~vz u
Carc. -LLItIon tj t Ion r) t C fol
ani e
-Vun r1red. P013rhedron, Cont '~-'rjd
th-aellae Phase 0 If the t, t 0 tz; Vo- thei,
e djr,~, As ",ra E. 1 0 to
_I 0 the the
f
I-frusj4 Opm Of 011t; t 0
n e0efficients t r, . St .,(,Is about
Ubstan rot h,
ce Cpg(l 0-,.,,'~~he
were Pe U thj r
e 11
&~Cuz'e,j b;"-S
2
Investigation of the diffusio.-I of alloys of
nickel-chromiwa-titanium.
based on removing the surface layers by of
electrolytic polishinL--, and mearuring the r;vlio-aztivity
of the removed substance, whereby the mearurinc-,- accuracy
was 5 to 8%. The 0results obtained for the tr..%parature
range 995 to 1250 C are entered in a toble, P-1113 arld
graphed in FiL~,,J, p.1441. In FiG.3 thQ diffusion
characteristics and the high stren,th propertieB 2-re
compared; it can be seen that for the temperature rar.6e
under consideration alloys :iinimura of the
diffusion coeffjcio;-..t have the hiGhest stren~-U lrtnd the
ranges of ijaximum strength and miniiawa diffusior, --ho-,,,
a similar dependence on the temperature. It 1.,; concluded
that the high temperature strenGth is determined primarily
by diffusion processes. Acknowledgments are. to
Prof. I. I. Kornilov for his useful advice.
There are 3 fi-;,ures, 1 table and 4 reference.-,, j11 of
which are Russian.
SURAITTED: October 7, 1957.
ASSOCIATION: Institute of lsletallur~5y imeni A. A. Baykov A,,,.S-,.U1,-'3SP.
(Institut MetallurCii im. A. A. Baykova Ali S.S,SR).
AVAILABLE: Library of Congress.
Card 3/3
SHINTATRY, A.Ya.
Connectionb3tvaen diffusion and heat resistance In allo7s, Issle po
sharopr. splav. 3:97-108 '58- (MIRA 11:11)
(Heat-renistant allo7s) (Diffusion)
AUTHORs Shinyayev, A. Ya.
3-19/47
TITLEs On the Limits of Solubility (0 granitse rastvorimosti)
PERIODICALt Zhurnal Neaganicheskoy Khimii,1958,Vol.3, fir 3,pp.655-658
(USSR)
ABSTHACTt A thorouqh investigation of the diffusion in the transitional
region or the alloys was carried out. The investigations have
the purpose of the explanation and the modification of the
diffusion at the limit of the occurring phases. The diffusion
process depends = the structure of the alloys and therefore
the investigation of the diffusion in alloys is connected
with the explanation of the modification of structure in the
transitional regions of solid solutions in heterogeneous
alloys. The diffusion processes were examined in the follow-
ing systemst III-Ti and III-Cr-Ti, with different contents of
Ti. The diffusion was followed by the use of radioaotive
i-ron, pe95. The examination of the'diffusion processes in
these alloys showed that in the transition from a solid
Card 1/2 solution to the limit of solubility of titanium the diffusion
78-3 3-19/47
On the Limits of Solubility
energy increases. Moreover the experimental data show that
the limit of solubility has a comparatively complicated
structure. The transition of the solid solution to the he.,
terogeneous phase in the allop is realized by a zone of the
state of order. In the phase diagrams of the metallic systems
it is correct also to take into account the zone of the order,
ed state beside the usual phases. There are 3 figures and
8 references, 5 of which are Soviet.
ASSOCIATIONs Institut metallurgil
Moskva
(Moscow)Metallurgical
im. A. A. Baykova Akademii nauk SSSR
Institute imeni A. A. Baykov.AS USSR)
C.ard 2/2
AUTHOR: Sh rrayev, SOV/126-6-3-9/32
TITM: Diffusion in Saturated Nickel-base Solid Solutions
(Diffuziya v oF Jehennykh tVejbdy'F-h rastvorakh na
,,rf ni
osnove nikelya)
PERIODICAL: Fizika Metallov i Me tallovedeniye , 195,9$ Vol (;, Nr 3,
pp, 450-45/5 (USSR)
ABSTRACT: The results are described of diffusion studies in
saturated solid solutions of the followine systems:
hi-Ti; 1:,i-Ti-Cr; Ni-Ti-Cr-N-Al. The diffusion coeffioierit
was measured b-,, aeans of radi8-active tracers in the
temperature ra-nfe 920 to 1250 C. From the measured
diffusion coefficients the activation enerEy viar, calculated
and also the values of the pre-exponential factor for the
diffusion of iron. in the investigated alloys. The re-,-ults
of the investibations have shown that in. the entire
investigated teiape:[,ature rergethe-process of diffusion
in the studied nickel-base solid solutions proceeded with
the same activation energy . The activaLion ener6y of the
Card 1)i:%,,,;ess of aiiiusion increases successively during a change
1/2 over from pure nickel to alloys of the ryste:,l: binary Ni-Ti;
I,C: ~ C, 7 iC
Diffui,iun in
r_C
Chan~,cs of
;-:11cys under other-wise
C, ;u,-d C(,Jldlibioj~r, or?j-c,,ivc1,1.r the ch,!n'resc in the
of t,:,-- atc,-.w of the
CV"!-rlt~11- latt:; 11 -%110Y to
-cc, durif"', ch"n-(" ()'Vo- fro:a one
once. The actliwtion ciLuv,y of the process of
oolution,2 ,:hows
of LL.c of th(-, prv--U~po U
1.011
c 'U, O.L.
r
~ P-rc! f I L;,hle and 1,--~ references 14 of
L I i~ ur o s I I
hich are -,~,viet 2 wi,~,iish.
Ir I u Ld
~f:ti tui, ieni A.!,. F,..ykov,,i AT; &;'R
(Instibutto of :---tallurcy i:2-ani A. A. Baykov)
Sentc.jbr.~r 10,
,56.
1. NICVC! ~t).1Oy.-.3--DJffu.;1on 2. Nickel alloy:3-Temperature factora
3. Nl~-.kel ulloy,;--Mlathematical analysis 4. Isotopes (Radioactivu)
--ApplPr t ions
Car-~ L/2
60'!/2_4-5"-l0-'i5/34
AUTHORS:Kornilov, I. i~ ) and Shi
TITLE: Diffusion in Alloys of the System Iiickel-l",hrome-Tungsten-
Aluminium-Titanium (Diffuziya v splavakh sistemy nikel'-khrom-
vollfram-alyuminiy-.titan)
Fb7RIODICAL: Izvestiya Akademii nauk SSSR. Utdeleniye tekhniches-kikh
nauk, 1958, Nr 10, pp 96-99 (USSR)
ABSTRACT: The resistance to loading of alloys in this system, accord-
ing to the work of Kornilov and Titov (Ref.3), depends essen-
tially on the composition of the alloy and temnerature. As
the temDeratare increases from 600 to 7500C, t~e region of
maximum strength is displaced from alloys with a titanium
content of 1.8 to 4.5 vrt.% toviard3 alloys c~)ntainin- 1.3 to
3.3 wt.%. However, the region of maximum strength on further
increase in temperature (up to 10000C) is displaced in the
direction of alloys with a high titanium -,ontent. Only at
temueratures above 11000C is the region of maximum strength
of ~he alloys rapidly displaced in the direction c.' dilute
solid solutiono. Microncopi(., X-rav and other investigations
of these alloys, which have been carried out in this work
(Ref.3) have shown that the mwximum solubility of titanium at
a temperature of 11OOCC is of the order of 1 wt.%. On rais-
Card 1/6 ing the temperature., the solubiiity of titaniua increases
'.'~07/24-58-10-15/34
Diffusion in Alloys D" 41 V
Titanium
considerably and at 1200or-it exoeeds 4 wt..%. In alloys con-
taining excess titanium a phase based on r1i 3A1 is zreciDitated
in which some aluminium atoms are displaced by titanium. The
lattice jarameter of the solid solution in,-reases frcm, 3.57
to 3.58 with increase in titanitra content from 1 to c) wt.56.
For the inves-tigation of diffusion, alloys with. cinstant con-
tents of Cr (20 wt.%),. W (6 wt.90 arid Al (4-5 wt.YO') were pre-
pared and bad, the fr-.llowing qlaa-q-Uitiee of titanium: 1, 21 37
5, 7 and 9 wt.%, A-!! these prepared alloys were heat treated
at 12000C for four hours Prior ir) diffusion annealing. In-
vestigatior-, cf the mi-cro-structure of these alloys showed that
the crysual size of the solid solutions of alloys in this sys-
tem was 300 to &rOu I; and changed very little vilth increased
annealing time. At a tiltaniwiL .~,)a-vent of 3 wt.~6 and above,
an intermetalli~~ phase precipitates out along the grain bodies
and boundaries, the ouant-ALty of whi.ch inerr-ased with increase
in titanium contallt, The invesLigation of diffusion in
selected allcys was carried. out at, four tempc-ratures, namely,
Card 216
1310V/241-53-10-15/34
Diffusion in Alloys of the 37stem
Titanium
9155, 1060, 1165 and 1250 CC. The duration of diffusion anneal-
ing varied from 400 to four heurs. In order to carry out the
annealing, the specimens were sealed under vacuum into a
double-walled quartz ampoule. A titanilum shaving was placed
between tile walls. Measurement of the diffU3i:)n coefficients
D was carried out by removing thin layers from tile specimen
by electrolytic polishing and measuring the radio-activity
of the substance removed during the time of polishing (Ref.4).
The accuracy of measurament was 5 to 8~6. Radio-active
Fe59 was used as tile diffusing substance, since it is closest
in its physical and chemical properties to nickel. 2he results
of measurements uf the diffusion coafficient of iron in alloys
of the system Ni-Cr-W-Al-Ti are given in the table, P 97.
Change of the value D in relation to the titanium content in
t;he investigated alloys is given in Fig.l. From this figure
it can be seen that the curves representing the dependence of
D on the compcsition of the alloy show distinct; minima for D,
the positicn cf which is temperature dependent. As the tem-
perature at which the diffusion investigation is carried out
is increased, the minimum vaiue of D is always displaced
Card 3/6 from two-phase alloys towards the unsaturated solid solutions.
_0V/24-58-10-151/34
Diffusion in Alloys of the System itic;kel-.Oiiroine-Ilur.LE;ste,-,,-AlLuainium-
Titanium
From the given coefficients of diffusion', the activation
energy of diffusion E and the magnitude of the pre-
exponential multiplier D_ were calculate-tI. by the lowest
square method (s(~e table). The change of E arid D in
0 0
relation to the alloy compo~;itlo.n is given in Yi,-.J.2. From
this f i;nire it is eViqcnt thu- as s, ali quantities of titan-
.3 - j -11
ium (0-5 wt,.-,6) are intrcd,j-,ed., a (iecrea~3e in E and D0
takes pla:;e- ,-ihi,::h i.;3 ia a~,7ree:rerit. w~..,,-h earlier inve,;'Vij~atlons
(Refs,5, ES), As the titanium crintent is further increased so
E and Do increaoe, rearhing a maxii2um ar, 3 Ti. As the
titanium content inor,~asos beyond 3 vit.7'9' B and Do constant-
ly decrease. This change in the diffusion characteristics Of
E and D with composition is due to the different degree
of order R-stablishmerit in the alloys and to tap. formation in
the solid solution cf a basis for an alloy of a new phase
having a differunt u4e),~r~~ of --cagillation. The results of in-
L i-n, -, - i !- - -
vesli~r-t;ior ,th of these
Card 4/6 %, -,, t of (14ffusi-on _Ietiier I-,Ii thr~ suren~
30V/24-58-10-15/34
Diffusion in Alloys of ~,-Ile System iii c ice'. --vhr -'~Ung3 te.- -A uzinium-
Titanium
alloys, are given in Fig.3, where the disposition of minima
for the diffusion coefficient D in relaiion to the region
of maximu-ni strength of tile a~loja in the system Ni-%'Jr-W-Al-Ti
is represented by crosses forming the curves 2 and 3. From
Fig.3 i'u follows that for all the investigated temperatures,
the alloy compositions having a minimum D are entirely con-
fined to the range of alloys of maximum strength. Similar
deductions applying to the ternary Ni-Cr-Ti system have been
found to also apply to tile quinternary sy3tem Ili-Cr-W-AI-Ti.
Hence these characte-ristics have a general nature. From this
it can be c,)-ncluded that a change in the strength of alloys at
Q
high temperatures is deterLiiaed essentially by diffusion pro-
cesses. Hence, in order to obtain greater strength in an alloy
at high temperatures and great loads, it is essential to in-
troduce eiements in such quantities as to ensure a minimum
diffusion displacement of atoms of the alloy components. The
dependence of maximum strength on alloy composition (Fig.3)
can be explained as follows: as the temperature is increased
from 600 to 7000C. the maximum strength region, owing to
coagulation of the second phase, is displaced towards the
Card 5/6 region of alloys containinS less titanium (the structural
jOV/24-58-10-15/34
.biffusion in Alloys of the
Titanium
factor is most important). At 8OOcC diffusion processes de-
velop due to the acti-)n of stress, as a result of which the
stren-th in this temperature ran~;e is determined by structur-
al as Well as diffusion factors., Hence, the mr-orimun strength
range is narrowed down. At temperatures of 950 to 1000oC the
diffusion processes are speeded u,) to such an extent that they
noticeably influence the strength. As compositions with min-
imum. diffusion coefficients at. these tenperaturrr3s refer to
dilute solid solutions, the maximum strength region is dis-
placed in the same direction. It should be noted that at tem-
peratures below 1100`C tae. value of D in the system
Ni-Cr-W-Al-Ti i9 c,_-nside~-abiy lower tbwi in the system Ni-Cr-Ti.
There are 3 figures, 1 table and 8 references, 7 of which are
Soviet, 1 English.
SUBMITTED: February 17 1958.
Card 6/6
tho o Lh,., Co-ATi,!ion t of "fu a i0a n
nd '4
7,: Zr1voJ sk ay,,i '1,bo- pp.
'T ?A CT Tn f-, r, nn L! c t i o n --! i ta if 10 U.: e !"hi.!
chrried out to ri~-terminrj Vac con-ItIon!., i'or u,:iyi;- tii3 -retholl
of elcctrolytio poi!,Ating ir tiie rviAr-rminnt ion of' tn- liffix-
s--ori ccef~'ici ~nt in Multi-con'.011--nt .Ilo:,,~, ,sn! In oth~-r multi-
rh-tac- ~n~- conci-Ition "or ~hiv -1-:t"Jol i.; of
'ter.,, small vulo,c~v o.' o1cctralyt-:.-. '-Iiii: conlition -':- -;,:r.,r
L.vlort!tnt, vincv- in thc~!p clectrolytifu the concr!ntr-!tion 0:
rilf, x-fAiouetive itoms dinperani in dicsolved layer:i i.-, iotcr-
Tif th.--. voly;m- of thc elv-ctrol.-ite 1-? too i7eet ti,.,~ Con-
~.-t-ntl`-t--On 0! the- :--,IIiGeCtiVLI i)-. t,~-O 10%i
C(Irt-Irrif"t tvi I I b. I f t 7n t .3
or 1. -d a v 0 1 u nt.a 11 Z ri I f;
-)'W.Jon f:o-inont?nt!~! rnz.--t t,~'-c in th- volioh-
~L tile CIAL.11A coneIltion:l -'or Oij
Lror-. " tu I r~,i to ti-- t--rmin
()V
"Olution vere carrcd out
011E.-mrv,cd tl,.~. " :~J in ~llv c";,01- tic".1-1:1 :~o_" V.
C., obt,41n..;d
0!, 15 mn. obl.r4ln lj---tt.-r in t
c () ncc-ntratlon of the .-Idioriellive t!.,-- flj.L-clv;-f'
Qf the dj.::_lu:!ion ffic: ~1.t
co~_,
n of :.ctivation of fl~.`fin-,.,on %r,-,
invu Li,7n ii un.
5, of -,-hich aro :o*,--_'ut-
ASSOP31ATRY- In -titut
Card 2,/'-
AUTHOR:
TITLE:
Shinyayev, A. Ya.
2o-119-4-2o/60
The Investigation of Diffusion in Alloys on a Nickel Base
With a Component Number of From 2 to 8 (Isoledovaniye diff-;zii
v splavakh na osnove nikelya a chislom. komponentov ot 2 do 6)
PERIODICAL: Doklady Akademii Nauk SSSR, 1950, Vol 119,
Ur 4, Pp- 7o2 - 704 (USSR)
ABSTRACT: In the pre:3r,.-.t Pt-per the influence of complicated alloys on the
diffusion characteristics of a solid nickel solution
is investigated. With an increasing number of
elements introduced into the alloy the activ.-tion ener-2-y of
the diffusion will probably at first grow rapidly and later
more slowly. In order to be able to investigate this problem
the author studied the diffusion in the following alloys: Ili -Ti,
Ili-Ti-Cr, Ni-Ti-Cr-W-Al, Ifi-Ti-Cr-W-Al-B, Ili-Ti-Cr-W-Al-ro-C
and Ni-Ti-Cr-W-Al-Uo-C-Nb. All compositions of alloys selected
here relate to the domain of the transition from unsaturated
solid solutions to heterogeneous compositions. As a diffutiing
element, iron, which contains the radioactive isotope Fe59,
Card 1/4 was used in all alloys. Measuring of the diffusion coeffic-~ent
The Invostig~L_tion of Diffusion in Alloys cn a Nickel 2o-119-4-2o/60
~dftse With a Component Number of From 2 to 8
was carried out according to a method worked out
previously (Reference7), which is based on the application
of electrolytic polishing for the purpose of lifting off
thin layers from the sample. By means of this method it is
possible to measure t~,e diffusion coefficient with an accuracy
of 5 - 8 %. Diffusion was investigated within the tem-
perature interval of 950 to 12500. The results obtained by
investigating the temperature dependence of diffusion coefficients
for the above alloys are given in a table. The experimental
points are well suited for straight lines, which is indicative
of the high deg-ree of accuracy with which diffusion -nefficients
were det--2r-in-c!. Th-, .'e3 of inclination of the linear
relatlonship3 between the logarit'I'm of tle specific a)ctjvltv
of the radioactive isotopes :in the lifted layers Ig I)
and 1/T continue to increase dnrinE tranrition from binary
to more complicated alloys. From the angles of inclination
of these straight lines the activation encri-,y of diffuaion was
calculated by the method of the least squares. The value
C2rd 2/4 of E in solid solutions on a nickel base can be considerably
The Investigation of Diffusion in Alloys on a Nickel 2o-119-4-2o/60
1b.se With a Component Number of From 2 to 6
increased by the introduction of suitable elements which are
soluble in nickel. The activation energy of diffusion in an
eight-component solution is twice as great as in the diffusion
of iron in pure nickel. A relatively considerable increase
of E is observed in connection with the introduction of a single
element into the solid nickel solution. If 3 and 5 components
are introduced, E increases only more slowly. A further increase
of E occurs only in connection with the for-iing of new bonds
of a chemical character among the atoms of the alloys. Thus, E
newly increases considerably by the production of carbides.
By the introduction of certain quantities of elements selected
especially for this purpose, a considerable increase of the
forces of the interatomic binding of the crystal lattice of
the alloy is brought about by the distortion of the lattice of
the solid solution. The binding forces and the energy of the
atoms of the crystal lattice attain their maximum value by the
introduction of 5 - 6 elements into the alloy on a nickel basis.
Card 3/4
The InvestiCation of Diffusion in Alloys on a Nickel 2o-119-4-2o/6o
Mase With a Compt'nent Number of From 2 to 8
The rnaults obtained here agree well with the data concerning
the durability of the sam.? alloys. There are 2 fiCures and 9
referencea, 0 of which are Soviet.
PRESENTED: October 22, 1957, by 1. P. Bardin, Uenber, Academy of Sciences,
USSR
SUBMITTED: October 3, 1957
Card 4/4
SHINTATIIIV, A.Tal
-------
Diffusion characteristics of nickel alloys having from tvo
to sight components and their heat resistance. IRnl.po
sharopr,oplAy. 4:165-169 059, (HM& 130)
(Diffusion) (Nickel alloys-Retallography)
.AUTHOR: Shinyayev, A. Ya. SOV/126-7-b-1 1/2'
TITLE: Diffusion in Alloys of the Nickel-Titanium Syste:-,
PERIODICAL: Fizika metallov i metallovedeniye, 1959, Vol 7, Nr 6,
pp 875-878 (USSR)
ABSTRACT: In the present paper the results of a study of diffuz~iot,.
in Ni-Ti alloys within the range I to 14 iirt.% Ti are giv,n.
The solubility of titanium in nickel at 8000C is 8 lirt,~~
and it slowly increases with rise in temperature unLil -.t
12000C it is 11 wt.% (Ref 4). When the titanium contpit
exceeds its solubility in nickel a new phase fornis. th~
basis of which is the intermetallic compound Ni Ti with a
hexagonal lattice. The nickel-base solid solution has a
face-centred cubic lattice. In order to study diffusion
processes, alloys were chosen In such a manner zis to be
able to investigate the saturated as well as the non-
saturated solid solution ranges and also the two-phase
range. The percentage of titanium contained in the
prepared alloys was 1,2,4,6,8,10.6 and 14 wt.%. The
alloys cast under a ternary slag (MgO, Al 20 CaO) were
Card 1/4 annealed as follows: 1150*C for 24 hours, 880'*C for
100 hours, cooled in air. An investigation of the
SOV/126-7-6-11/24
Diffusion in Alloys of the Nickel-Titanium System
microstructure has shown that alloys containing 8 wt.% Ti
and less have a coarse grained polyhedral structure, the
grain size being 2 to 3 mm. Alloys containing 10.6 and
14 wt.% Ti have a pronounced two-phase structure. Iron
was iised as the diffusing element as it is the closest
element to nickel base alloys in its Rhysical and chemical
e 59
properties. The iron used containedMdioactive Fe
Diffusion was studied at the following temperaturest
950, 96o, 1050, 1093 and 12470C. Diffusion coefficient
measurements were carried out by a method which is hased
on the removal of thin layers from the specimen by means
of electrolytic polishing and measuring the specific
activity of the thus dissolved substance (Ref 5).
Annealing of the specimens was carried out in quartz
ampules filled with purified argon and a shaving of
titanium was placed between their double walls. During
annealing the alloys did not show any signs of oxidation,
The results of measurement of the diffusion coefficients
were easily reproduceable in parallel specimens. The
Card 2/4 accuracy of measurement was 5 to 8%. An analysis of the
SOV/126-7-6-11/24
Diffusion in Alloys of the Nickel-Titanium System
experimental results of the dependence of the specific
activity of radioactive atoms in the removed.layers fins
shown that diffusion had taken place in Ni-Ti alloys
throughout the depth of the diffusion layer which was
evidently due to the large grain size. The results cf
the study of diffusion of iron in Ni-Ti alloys are shown
in a table, p 876. In Fig I the diffusion coefficient
of iron in alloys of the Ni-Ti system at various
temperatures are shown. In Fig 2 the dependence of the
activation energy of diffusion E (curve a) and of the
pre-exponential multiplier D (curve b) on the composition
of the alloy is shown. In Fig 3 the grain boundary areas
during the formation process of a new phase are shown.
From the results obtained in this work for the diffusion
coefficients it is possible to assume that at the
temperatures of 950 to 11000C the maximum strength of the
alloys will correspond to a titanium content of the order
of 8 wt.9i.. At a higher temperature the maximum strength
Card 3/4 range will be displaced in the direction of lower titanium
content. There are 3 figures, 1 table and 9 reference5f
SOV/126-7-6-11/24
Difftrsion in Alloys of the Nickel-Titanium System
8 of which are Soviet and 1 English.
SSOCIATION: Institut metallurgii imeni A. A. Baykova AN SS5R
(Institute of Metallurgy imeni A. A. Baykov, Ac.Sc.,USSR)
SUBMITTED: February 1, 1958
Card 4/4
S/129/61/000/001/007/013
E073/E135
AUTHORS: Tavadze, F.N., Corresponding Member, AS Georgian SSR,
Khrtozlya, Ye.S., Engineer, and
Shinyayev, A.Ya., Candidate of Technical Sciences
TIT7 171: ,)OiC~i-iTCY-o-f-T,,'-ignesium in Iron
P'r.'.R !,.', D ICA 7Vet-illovP(leniye I termicheikayi obr-ibotka metallov,
19617 No. 17 PP. 33-35
TEXT: The re-,ults are described of d,~tcrinfninr, the solubility
of magne~lnm In !rrin nf bigh purity nt clevat,!d pressures. A 3
startinr materials, ,lectrclytic Iron (99.671.", ind magnesium
(99.9%) were uned. ".~'hp Iron was saturnted with magnesitim In
cyllndrl~;-il of commerei-illy rrjre. iron wl*,h 5 mm thick
walls. The w,:reirz part wa,~ 20 mm hLgh wLth a di3mRter o,- 2~,; mm.
Iron disc2 ~-Je 19.5 mm dia and 4 mm thick wcre charred int-, the
container to,,;~t-r-r with m-gne3lum, the voltimo of which was
approximately -,-qual to the volume occupiod by the Jxon .,:,Docimens.
The contallnt,r w,.-- hrrmeticilly closed with i threided Str,,per and a
lid. Foll,.-)wing that, the container was snaled in vnclil)- into
auart7 amp-,ule,-~ and annealing w-is effected -it 1120 0(; I'n- a duration
Card 1/4
2/129/61/000/001/oki7/013
F'073/F,135
jolubility of Magnesium In iron
which was sufficient for producing appreciable diffijlon layers.
The duration of the annealing depended on the hermaticity of the
container, i.e. on the pressure. The pressure in the container was
produced by the considerable differences in the coefficients of
expansion of the magnesium and the iron. According to calculations,
pressures between 500 and 1500 atm can be produced by this means.
For such pressures no appreciable solubility of marnesium In iron
was detected below 1000 OC. Above this temperature the solution
was due to the hermeticity of the system. No microstructural
changes in the s'urface layer of the specimenn was observed after
annealing for 18 hour-, at 1120 0C. However, chernicil analysis by
deposition on the mercury cathode of a 0.4 mm thick .*,urface layer
showed a content of 0.17-0.19 wt.% of magnesium. In specimens
annealed for 40 hours at the same temperature mtcrostructure changes
in the surface layer were detected; a zone of columnar crystals,
orientated perpendicular to the surface of the 3pecimen and having
an average thickness of 0.5 mm was observed. The magnesium content
in a 0.1+ mm thick layer was about 0.6%. Outside this layer the
Card 2/4
S/129/61/000/001/007/013
E073/El35
L.,
Colubility of Magnesium in Iron
structure was the ordinary polyhedric one. X-ray structural
Investigatlonri by the powder method showed that the lattice pericd
tends to decrease on transition to layers that are saturated with
magnesium (P-856 compared to 2.861 1 for the pure iron). The
X-ray diffracti-cn patterns s'liowed only pure iron lines. The self-
diffusion power of the iron wis studied by epositig on the
magnesium-containing 1%yer tne inotopes Fe5l and Fe and subjecting
these a~, wel.1 af! referenie specimen,; of pure iron to
vacuum anneaLing in quartz -impoules at temperatures controlled
within f 2 0~_". The self-dlff~usion was determined by electrolytic
removal 1-.Yers and me,isviring the radioactivity of each layer.
It was fe-un-J, that magn;~!~inm hri.ngs about an increase in the self-
diffusion of iron; at E-8-i CC the diffusion In the magnesium-
containing, .urface layer w-tf-, about 25 times as high as in pure
iron. Particularly noticeible is the Increase In the self-diffusion
coefficient for irrn that Kts been subjectc-d to microstructure
ohanges as a re--zult rif rvign-~sium dissolution. Autoradlographic
investigations haic shown that volume diffusion of iron takes place
Card 3/4
s/129 '161/o00/001/'007/013
EO?3/El35
,,olubllity of Vngnc7ium in Iron
throughout the entire depths of the diffusion zone, which indicates
that the magnesium which is dissolved in the Iron is uniformly
distributed throu,-'hoiit the grain body; the diffusion depth in
pure iron wa-S 8(~-93 p and over 2011 p in the magnesium-containing
iron layers. This contributed to the formation of a large number
of defects, In the crystal lattice of the solvent metal during the
process of di3solution. Indeed, in almost all cases the micro-
photographs of magnesium-containing iron show pores; these
coagulate, depending on the conditions of interaction between the
magnesium and the iron temperature, pressiire). Magnesium
dissolves in iron only at high pro--l!sures and tomperatures (above
1"400 0") . A.ccording to Bulloy and Hum,-in (I?ef.2) dislocations can
become centre,.~ of accumulation of dissolved admixtures. In the
zone surrounding the dislocations the migration of atoms is
conzLiderably accelerated, Formation of vacancies should reduce the
lattice period of the iron. This is in good agreement with data
obtained by X-ray invesLigations. There are 1 figure, I table
and 2 references: 1 Soviet and I English.
This is a condensed translation.
Card 4/4
SHINYAIEVp A.Ya.
--------------------
Diffusion in solid solutions of chemical compounds and their heat
resistance. IBsl.po aharopr.pplav. 8s19-21 162. (MMA 166)
(Solutions, Solid-Thermal properties) (Diffusion)
S/032/62/028/003/006/017
B101/B138
AUTHORs Shinyayev, A. Ya.
TITLE: Use of chemical polishing for the study of diffusion in
solids
PERIODICALs Zavodskaya laboratoriya, v. 28, no. 3, 1962, 299 - 300
TEXT: Layers of uniform thickness can be removed, and the distribution
of the diffusing substance can be analytically dettermined, by selecting
electrolytes in which the structural components of the surface to be
polished are unifonnly dissolved. This was experimentally confirmed by
determining the coefficient of self-diffusion of nickel with the use of
63.
Ni A mixture of 60 - 70% acetic, 40 - 310~o concentrated nitric, and
0.5% concentrated hydrochloric acids was used for polishing.. Layers
4 - 6ts. thick take 10 - 15 sec to remove. To restrict dissolution to the
end face, the sides were coated with varnish. Thickness of the layer
removed was found by weighing. The results were in agreement with micro-
meter measurement. Comparison of chemical and electrolytic polishing
showed the same linear dependence of the logarithm of activity a on 'he
Card 1/2
Use of chemical polishing...
S/032/62/028/003/006/017
B101/B138
square distance x from the initial surface. Disadvantaget! of the method
aret (1) short life of the electrolyte, (2) difticulty of adju3lirg the
electrolyte, (3) no suitable chemical electrolytes can be found for
certain metals and alloys, There are 1 figure and 6 references; 3 So-;i--t-
and 3 non-Soviet. The reference to the L;ngl ish -language publication
reads as followes L. P. Spencer, Chemical Polishing, Metal i-Inishing,
56, no. 3, 52a, no. 4, 62 (1958).
ASSOCIATIONt Institut metallurgii im, A- A. Baykova (Institute of
Metallurgy imeni A. A. Baykov)
Card 212
KOF91ILOV, I.I. (Moskva); SHIffAYEV, A.7a. (Moskva); PTIATEVA, U.N. (Moskva)
Crs-sp--cf -cartain-matal.compomd . Ixy.,AN SM. YAt. i gar.
delo no.5t113-115 8-0 163. (KnU 16: 32)
ACCESSION NR: AT4013924 B/2659/63/010/000/0038/0042
AUTHOR: Shinyayev, A. Ya.
TITLE: no relationship between the energies of activation of creep and diffusion in
heat-resistant alloys
SOURCE: AN SSSR. Institut metallurgil. Issledovanlya po zharoprochny*m splavarn,
V. 10, 1963, 38-42
TOPIC TAGS: heat-resistant alloy, creep, diffusion, activation energy, heat resistance
ADSMkCT: 71ic author investi-ated the rclationship between Q and F for pure
0 creep dif
nickel; nie-kel in solir? solutions saturated with tiUiniurn (NLi + 8% Ti bywei-lit) 017 '.ViL~l
chromium plus titanlum (Xi + 20(,~~% Cr + 3.4% Ti); and licat-resistant alloys oil a kis,: of
nickel ANV-3000. 71ic individual components were first tc:-,tcd using radioactive
Tlic change in the coefficient of diffusion was obtained by the method of removir - I dyers.
Tlie chall(re ill vva6 tcsied by bending undur statie, loada. 'rho results are sf; wa in
Table I of Llic Enclohurc. The test abowed, first of all, that Q croop for nicke '; 5t as
for other metals with a cubic lattice, to somowhat lower than E no plant,c (7 oforra a Lion
dif'
1/3
ACCESSION NR: AT4013924
of heat-resistant alloys was also tonted. It was found that the plastic deformation of theFle
alloys has several features distinguisliffig It froin the plastic deformation of pure metals
and dilute solid solutions. The investigation of various properties when passing from pure
metals to solid solutions and to heat-resistant alloys allows one to obtain the required data
about the mechanism of plastic defonnation of complex alloys at various tomporatures and
stresses. This is the main problem In the theory of heat-resistant alloys. Orig. art.. has:
1 figure and 2 tables.
ASSOCIA77ON: Institut motallurgH AN SSSR (Instituto of Metal.lurgy AN SSSR)
SUBMITTED: 00 DkTE ACQ: 27Fob64 ENCL: 01
SUB CODE: YX NO REF SOVI 013 0771ER: 004
2/3
Card
ACCESSION NR-. AT4013924 ENCIMURE: 01
TABLE I - Ito energy of the diffusion and creep activation of nickel and its alloya
Material Edifl k1lo, calories/mol Qoroop
Ni' Cr Fo
N i 69.5 48 51.7 66.4
- Ti
N
1
8.5 ---
73.1
77.2
NI-Cr-TI 68.7 71.6 84.0 91.6
ANV-300 74.0 89.0 91.3 136.5 (