SCIENTIFIC ABSTRACT PANIN, V. YE. - PANIN, V. YA.
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CIA-RDP86-00513R001239020014-9
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December 31, 1967
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SCIENTIFIC ABSTRACT
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I _~ANTINI V.Ye. (Toirisk)
BUSHIIEV L.S. (Tomsk); DIUMAUV, Ye.F. (Tomsk); I
D'Islo-cation struct,*~re formed during thermomechan-i-M! treatment
of alloys with a low stacking fault energy. Izv. AN SSS?,. ,!et.
no.5:173-179 3-0 165. WIRA 18:10)
502 SOURCE CODE: UR/0404/65/000/002/0056/0063
AV~9' iOR- Panin V. Ya.
ORG: none
'-TITLE.
Epizootology and prophylaxis of-EWh stronqu" in. maral
7-SOURCE.--7-AN.KazSSR.-Izvestiyai Seriya biologicheskikh-nauki no, 2, 1965, t6-63
TOPIC TAGS: epidemiology, animal disease, disease control
ABSTRACT:- The present paper reviews the literature (Lyubimov, Osipov, Panin, and
Pryadko) on.the epizootology of the nematode Elaphostrongulw panticola in maral [Si-
-berian deer3 and recommends prophylactic measures against it. The author describes
[the maral as.an important source of non-osqified antlers, a vital ingredient in the
widely-used medical pre.paration p=tokrin.W It is noted that E. panticoZa (almost en-
tirely absent in wild maral) afflicts mdral confined to limited grazing areas in the
Altay and Eastern Kazakhstan. Seven species of mollusks (intermediary hosts of E. pan
ticoZa) are identified as the principal carriers of the disease: ZenobielZa norden-
skioldi, Suceinea altaica, B. frutiem, Z. acuZeato, Perforatella bicallosa, Zonitoi-
~dus nitidim and AzViolim= agreetis. Infestation of these hosts with E. pwiticoZa is
.highest in summer and early autumn. As a prophylactic measure, the author recommends
that grazing land for fawns he changed three times during the grazing season and that
.1/2
OTH REF- ODO
PANIN V.Ya.
Epizootology and prophylaxis of elaphostrongylosis in marals.
Izv. AN Kazakh. SSR. Ser. biol. nauk 3 no.2:56-63 Mx-AP 165.
MRA 18:5)
JVJANOV, S.M.; RYBIN, V.A., prof.., red.;,PANIN, V.Ya.., red.
(Causes of the desiccation of stone fruit trees) Prichiny
usykhaniia derevIev kostochkovykb plodovykh porod. Kishi-
nev, Shtiintsa, 1961. 224 P. (MIRA 18:5)
ANDREYEV.. vladimir Nikolaysvich(1889-1962)1 prof. doktor biol.
nauk; PANIN, V.P red.; BALABANP 14,# redo
......
[Trees and shrubs of Moldavia] DerevIia i kustfrnild
Moidavii. Kishinev, Kartia moldoveniaske. No.2* 1964.
275 P. (MIn 18:4)
SUVENKOVA, N.I.
N ;,. YA
PAN 4,,y
Developmental cycle of Brachylaemus aequans LGOSB, 1899 (Trematoda,
Brachylaemidae). Trudy Inst. zool. AN Kazakh. SSR 19 :83-88 163.
(MIRA 16:9)
(Alma-Ata Province-Trematoda)
-q Z
Z
BOTEV, Sergey Nikolayevich, akademik; SOKOIDVA, Iya Borisovna;
PMM,-,-.Viktor Takovlevich; POGOZHEV, A.A.$ red.;
ROROKIA, Z.P., tekhn. red.
(Holmintho of Ungulata in Kazakhstan in two volumas] Gell-
minty kopytnykh zhivotnykh Kazakhatana v dvukh tomakh. Alma-
Ata, lzd-vo AN Xaz.SSR. Vol.2. 1963. 535 p. (MIRA 16:10)
1. AN Kaz.SSR (for Boyev).
(Kazakbatan-Parasites--Ungulata)
...(Kazakhetan-Woms, Intestinal and parasitic)
PANI211 V,,_Yao 1AVROV, L. T.
Helminth fauna of wolves in YAzaklstan. Trudy Inst. zool. All
Kazakh. SSR 16:57-62 162. (MIRA 15 - 10)
(Knakhstan-Parasites-Wolves)
(Kazakhstan- W.)rms, Intestinal and parasitic)
FEDOTOV, Viktor Semenovich; PANINI V.Ya.p. red.; BRAGINA, L.F., red.;
- EiF
POLONSKIY, S.A., tek . red.
(Terracing slopes for orchards and-vineyards in Moldavia]Ter-
rasirovanie sklonov pod sady i vinogradniki v Moldavii. Kishi-
nev, izd-vo "Shtiintsa " 1961. 174 P. (MIRA 16:2)
(Moldavia-Terracingi (Moldavia-Fruit culture)
FADIN, V.P.;
Concentration depe ndence of the ordering energy 4_n Cu - zn solid solu-
tions. Izv. vvs. ucheb. zavz; fiz 8 no.2tl77-179 165. (MJRA 18:7)
1. Sibirskiy fiziko-tekfttcbeskiy 1-notitut imeni Kuznetsova.
FADIN, V. P.; Y8-
Kinetic theory of ordered Cu-A-1 aolid aolutio-3- Fiz- -t- i
metalloved. 14 no.4:517-522 0 162. (KM 15:10)
1, Sibirskiy fiziko-tekhnicheakiy institut.
(Copper-al,Udn= anoya-Metallography)
(crystal lattices)
1,.-26634-66 EWT(m)//EWP(w)/T/LW(t) IJP(c) JDIJH
ACC NR: AP5025338 SOURCE CODE: UR/0126/65/ 020/003/0469/0472
AUTHDR: Panin, V. Ye.; Dudarev, Ye.-F.*. Butkevicb, L. H.; Dolmatova, R. P. /S
ORG., Physico-Technical Institute of Siberia im. V. D, uznetaRy (Sibirskiy
L
institut)
TITLE: The effect of short-range order n the mechanical provertLgo-,of solid
solutions
SOURCE: Fizika metallov L metallovedeniye, v. 20, no. 3, 1965, 469-472
Topic TAGS: solid solution, copper alloy, aluminum alloy, zinc alloy, ordered
alloys solid mschanical'p~opertyv material deformationp Crystal dislocation
ABSTRACT Th thors pres.Qnt a more systematic investigation of solid
And Cu-Zn':1'_&nd express their findings on the causes of various
solutions Cu-A
A
effects of short-range order on the mechanical properties of the alloys. In
order to-confirm the assumption that various mechanical properties which result
from the various degrees of alloy deformation will depend on the degree of short
range order, an investigation used the alloys Cu4-17.3 mole% Al and Cu+38 mole%
of Zn which have a considerable sbort4ange order The resistance of alloy to
UDC:- 548.0:539
--Card 1/2
L 26634 66,
ACC NR: AP5025338
deformation as a function of temperature was also stuAied. The character of the
..effect of short-range order changes according to the resistance of deformation
and degree of deformation. The effect of short-range order on the resistance of
deformation with increase of degree of deformation at first der-reases an'd then
becomes inversely pr6portional to the Fischer effect. Similar results were
obtained with Cu-Zn alloy. It was shown that the effect of character of the
structural dislocation on the resistance of deformation greatly depends on the
intensity of the system. Heasurements of macrosolidity confirms that in this
system of intensity the character of structural dislocation is signifficant. and
..causes a strong abnormal dependence of the indicated characteristics on the
of short-range ordere Orig. art. has: 2 fig.
J!,
-SUB CODE: -.41.20/SUBM DATE: 05oct64/ ORIG R6.-~ 006/ OTH REF: 012'
Card 2/2
DUDAREV) Ye,F.;-LA1-,T1At2~?4-; BUSHNEV, L,S.; RUDCHENKO, V.V.; SIDOROVA, T.S.
Implementation of Cottrell - Stokes'L, law in sc-lid Bolutions.
Izv. vys. ucheb. zav.; fiz. 8 no.4:184 165. (MIRA 18:12)
1. Sibirskiy fiziko-tekhnicheskiy institut imeni V.D. Kuznetsova.
Submitted February 17, 1965.
DUDAREV, Yti,,F.i PANIN, V.ye - SIDOROVA, T.S.
Nature of the yield atrangth, of copper-base solid sclut-Lans. Fiz.
met. i metalloved. 2-8 no.2.-289-293 -4g 164* (w RA 18 8),,
1. Sibirskiy Institut.
PANIN, V.YGD; FADINP V.P.
Short-range order contributlon to the change in the prorArtiea 0.
Qu - Al solid solutions due to thermal treatment. Izv. vyS. uoheb.
zav.; fiz. 8 no.2all9-124 165. (MA 18s7)
1. Sibirskiy fiziko-takhnicheskiy institut imani Kulnetsova.
PANIN, V.Ye.; DUDAFXV, Ye.F.; BUSENI""!, L.S.
Effect of the -,hhractF-r of thj~? d1slocation str-act r. on L~.O
mechanical properties of Cu - 11.1 solid solutions. DokI. Ali,
SSSR 160 no.1:95-98 Ja 165. (MIRA 18:2)
1. Sibirskiy flziko-tekJ-;ndchesk-,'y institut pri Tom,3kom gosu-
darstvennoin universitete im. V.V. Kuybysheva. Submitted July
30, 1964.
Y~'j"V
A44
DUDAREVI Ye.F.; PANIV) V.Ye.
The yiold threshold effect in deformed solid solutions of
Cu - Al. Izv. vys. ucheb. zav.; fiz. 8 no.6:107-115 164,
(MIRA 19:1
1. Siblrskiy fiziko-tekhnichesHy institut Imeni V.D. Kuz-
netsova. Submitted June 1% 1964.
DUDAREV, Ye.F.~_,PANIN, V.Ye.; SIDOROVA, T.S.; DEMIDOV, G.A.
Temperature dependence of resistance to deformation in Cu - Al
solid solutions. Izv. vys. ucheb. zav.; fiz. 8 no.6:115-124 165.
(MIRA 19:1)
1. Sibirskiy fiz1ko-tekhnicheskiy institut Ameni V.D. Kuznetsova.
Submitted May 30, 1964.
BUSHNEV, L.S.1 BUTOVICHO L.Mal PANIRj- V.Ye-
Electron siorosoopy of the-affect of low-temperature amiealing
on tbe.otructure of cold-v-rked Dr. 27 and L62 alloys. Fiz.--met.
i.-meta-l-loved-..20,no.5t6gl,-~6 N 165.
(MIRA 18212)
1. Sibiiskiy fiziko-tekhnicheskiy institut imeni V.D.Kuzneteova.
Submitted November 21, 1964.
POPOV, L.Ye.; PANIN,-v-.Ye-.-
Detachment of a split dislocation from the Suzuki atmosphere.
Fiz. met. i metalloved. 19 no.4:624-626 Ap 165.
(MIRA 18:5)
1. Sibirskiy fiziko-tekhnicheskiy institut.
DUDAREV, Ye.F.; PANIN.,-V.,,Te.; NIKITINA, N.V.
Temperature dependence of impurity concentratian In Suzuk-4
atmospheres in a nimber of volid solutions,' Fiz. mot. i
metalloved. 17 no.6:924-930 Je 164. (MIRA 17-8)
1. Sibirskiy fiziko-tekhnicheskiy institut.
DUDAREV, Ye.F.;,PANIN, V.Ye.; SIDOROVA, T.S.; DEMIDOV, G.A.
Temperature dependence of the resistance to defor=atic= of. Ivu-Al-
solid solutions. Fiz. met. i maUlloved. 19 no.3:477-480 Mr 165.
(MIRA 18W
1. Sibirskiy fiziko-tekhnicheskiy institut.
_.tANIN,. Ye.; FADIN, VJ.; DUDAREV, Ye.F.
Effect Of quenching tewperal~wp on the ordering processes in solid
Cu-Al solutions. Mr. fiz. zhur. 8 no.2:195-201 F 163. (IMA 16:2)
1, Sibirskiy fiziko-tekhnicheskiy institutp g* Tomsk,
(Copper-aluminum alloys--Hardening)
V.)%.; FAPIN, V. P.
i.-Pur4ty of the alloy on the Wt 9;'4ering in Cu--A:L
Ukr.'~ f ii, ahur. 8- no.2-.-201-206 ~.F 163. (MIRA 16:2)
iklmiobeakiy itsjitat; g9 Tomsk.
(Go ii%~ebwirium illoyo)
-gN
PANIN, V.Ye.; DUDARM, Ye.F.; BOLISHANINA, M.A.
4_-~
Suzuki atmospheres in brass and aluminum bronze. Dokl. AN SSSR
152 no.1:92-95 S 163. (IOU 16:9)
1. Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom
gosudarstvennom universitete im. V.V.Kuvbysheva. Predstavleno
akademikom G.V.Kurdyumovym.
(Brass--Metallurgy) (Aluminum bronze--Metallurgy)
m~ibji i Lyl
V:--- 4 r nzit
jj~,~g'gifg~ F. -w
Rt~
PANINP V.ye.; KUDRYAVTSE.VA, L.A.; SIDOROVAy T.S.; BUSHNEVf L.S.
lite internal adsorption In Cu-Al solid solutions
intercrystal gh temperatures* Fiz. m9t. I metalloved.
I during hardening from hi (MIRA 16:11)
12 no.6:927-928 D 161.
1. SibirskiY fiziko-tekhnicheakiy institut-
PANIN, V.Yd, . , -1,
Theory of the near-range order c6ntribution to the hordwing of solid
solution alloye, Fiz. met. i metalloved. 17 no.1:10-152' Ja 164.
(MIRA 17:2)
1. Sibirskiy fiziko-tekbnicheski,y nauchno-issledovatel'skiy institut.
FADIN, V.P.,, PAITIN!t.Vo,y9~
r-aluminiva solid Solutions. Fiz*
Kinetics of near order changes in coppe (MIRA 17:2)
met. J metallo"d, 17 no.22192-196 F 164.
1, Sibirskly fiziko-tekhnichoskiY institlite
I I-
- - - - - - - - - - - - - -
pjkI41N. V.Ye.; KUZNFTSOVA, L.D. dbrasses. P,iz. met.
ansformations in uafOrr,"-d KI(A DO' )
Nature of tf jy 164.
i metalloved. 17 no.5:798-900
1. Sibirskiy fiziko-tekhnicheskiy institut.
PANIN, V.Ye.; DUDAREV, Ye.F.; SIDOROVA, T.S.; BOLISHMINA, M.A. .
f hard
heir contribution to the hardening 0
~Uzuki atmospheres and t] ad. 16 no.49574-582 0 163-
alloys. Fiz. met. j mtallov (MIRA 16:12)
1. Sibirskiy fiziko-tekhnicheskiY instit4o,
VT, S
PANIN, V.ye.; ZENKOVA., E.K.; FEDIN, V.P.; KORYAVTSEVA, I.A*
Diffusion transformations in solid solutions at high temperatures. -
Issl.po zharopr,oplav. W61,--168 162. (KMA 16t6)
(Copper-aluminum alloys--Yatallography)
(Metals at high temperatures)
PANIN jV. ye.; FADINI P. ; DIJDARhIj yo. F. olid SolutiOrD
electric resiotanee Of GU-Al a ,
variation of tT Izv. vyS. uchob. zav.; fiz- no.6148-51
cluring beat treatment. (min 16:1)
161.
1, Sibirski",y fjziko-tekhnicheskiY institut pri Tomskom
gosudarstvennom universitst imeni Ruybysheva.
(Coppgr-aluininum a.11011-Blectric properties)
(Metals at hfg*b temPeratureg)
KMWAVTSEVAj, L. A.; FANIN, V. Ye.
I
Temperataiv dependence of internal friction in Cu-Al solid
solutions, Izv. vya. uch. zav. I fiz. 31,93-98 162.
(MIRA 15: 10)
1. Sibirokiy fisiko-takhnicheskly inatitut pri TomBkom gosu-
darstrannom universitate imni Kuybyehava.
(Copper-alumic= anoys-Thermal propertisp)
Ve Pv; BOBYREVAP G. A.
of alloyo 01, the nature of ordering in
Effect or Ih 2ave; fi2o 31
-the Purity IZV. VY0. UC
On-All.o-oUd Solutionoe Part 10 15.. 10)
10-159 '62
SlbirskiY JzikO-t.8kbnicbsOl'*7 !LnOtj_tut pr!L Tomskan 90su
ersitete imen' luybpheva-
darotvsnncAS UnIv i
(copper-aimimm allOYS)
PANIN, V.ye.; _4UPOVAROVP V.F.
-- ~ Sol. po zbaropr. spi.av. 9:3-45-l'500
Hardening of solid solutions. (mIRA 16t6)
162. (copper alloys-Raideniug)
I
PANIN V.Ye FADIN V.P.; REDININ.. IGNATrUX3, V.A.
Temperatitre dependence of tl*-ShOrt-range order in Cu -A Al
Bolid solutionse Fis. met. imstalloved. 15 no.2-.264-268
F 163. (MIRA.16:4)
1. SibirsUy fizikp-tekbnicheskiy institut.
(Copper-)A~~n= allqya--,Metallo~~pby)
(Metals, Effect of temperatlam 0
, V.Yc-.
r,-dD-T3v, :)~
n e-46
3uzuld 7 T,u
Ove
riz. met.
f; C"eskly iris" "It.
Sibir.51k., -
3S~l
124-,8-63 WP(q)/WT(n)/B_nS AFF-ICASD JD
Sidorova, T. S., Panin, V. Ye. and Bol'shanina, M. A.
AUTHOR:
Effect of deformation 3f crder-diic~order Drocesses 1'n CU-A! alloys
PERIODICAL: Ukrains'kyy Fizychnyy Zhurnal, v. 8, no, 3, 1963, 359-363.
TEXT: it is known that the existerice of close order in alloys may cjnlri-
bute signi.~_'cLztly to strengthening of alloy and in changing its deformation prop-
erties. This contribution may be evaluated after subsequent annealing of de-
f -ormed-alloy, when the close order is restored. At the same time, ordering process
whic-r- are associated with the
0'r"ifick~- of--~ i -Uige - numbar of - A isloca t ions IC--va canc::~.&s in the ma terial There-
ore,' stud -ordering not on elunderstan#ftg-~ot-nature of - deformed -
of, aidg~
ate '~uv~-Xe of iziterest Jn:'xtse1f._- This,-work-lis--invol with--study of.these
t Ved
~ ; ~ -- cu4i,
-dcisses.4n I -,- - The methods of measur-
ano -h' ign fica .'order
ys.. aving s i nt 'short.
.'L~n d _6rAniss,;electrica! resistance and iture dependence. of resis-
ensity~~ r
--deformed--state-o "cu-
ance -were --used: -to ~ invest f _LAiioy~_~ it is shown that
the
1_j -a small-plesfLd--deformation' the annealed_ _C~-Al---al loy. -,-.--Order
ing is enhanced in the course of a small deformation if the alloy is quenched
from high temperatures. The conclusion is
Card 1/2
L :M78-63
S/185/63/008/003/004/009
Effect of deformation of order-disorder processes ...
that basic ordering of Cu-Al alloys during deformation is not associated with
10
the presence of short-range order in the alloy. 7he article contains 2 figured
C~
and a 17 item bibliography.
ASSOCIATION: Sibirskiy Fiziko-tekhnichaskiy institut (Siberian Technical
Physics Institute, Tomsk.)
Card 2/2
V. V. Ye.
FADINY O:e ordering in GU_Al solid
Eff,ect-of purity, cm, the natll~ ,,b. zav.; fiz. no.6:85-89
solutiom. Part 2. Izv- VYO. U01 (14IRA 16:1)
162.
oheskiy inatitut Pri Tomokom 90MU-
SibirskiY fizIkO-t8kb"" hevas
darstvennom univOr'sit8te Amni I[u7bY8
Gopper.e*minum alloys)
--CA37 metanurgY)
Y~~
V v. p. Bus~inev,
.
Minaj e'v
n s
orler
lmperfec~ Lc.-niz-ran~7,e
' 2
V. no.
zh~irnal
D 1 A L
Ky-v
-ray ins
Uk ;
-210
0
2
al isotherms Of
7i lhe v"-
TJ c
authors ca -1!- .1 -
c
theore
i
e
I h -.aL-let--r
P
e during tempering O
a or, _
P
sylort-rang T
temperature on the order-Ine, v
f f e c t of harden-in
ti C)n,3 Ol CU-Kl
BeS in E3 0 7
El t
0:', 14
jt n;-) rs
E? C f r E' C i: lu~
T
01-
va
a Ov e h
e en n
e ne r
t.
r e P EL r D f
ar d
S/185/63/008/002/0.0`012
-P
"'.Lfec ~ of hardening . . . D-') 3 4 / D3 08
ASSOCIATION: S-ibirekiy fizi-ko-tekhnicheskiy inatitut (Siberian
Physicotechnicai Institute), Tomsk
A',:
c ,-I-rly yzhurnal, v. 8, no.
P4RIODICAL: Ukrayino'kyy -,'izy
201-206
Xr'l The a-*loys investi;c-ated were: Cu + 14.3 at.%, Ai 01"
e 4300 D r O'_')
Card 1/2
~/l E35 //0 12
Ef,fect o'L purity ... D2 5 4 / D-5 Od
are 3 figures and 1 table.
ASSOCIATIOW: k1jibirskiy fiziko-tekhnicheskiy institut (Siberian
PhysicotechnicRl Institute), Tomsk
Card 212
S/ 12 G 1.~13,:rZIG 17/ 33 3
AWL HOIRS P--nin, V.Ye. , Faclill, V.P. RC--C'"-.i-"I, V-P- ZnCl
J-Znaf~-u-k., V.A..
TITLC- The t em-,I)eraturc-dep mid enr- e of sJiort-z-z.,n-c ordor in
solid cu-tll solutions
M-110DICAL: Rizilia matallov i motallovedcl-iiYe, V. 1`5 , no. 2 ,
1965, 264 - 263
T 2:,T Tao object of t,-,c r,.esent- invcsti.fatio,, v.,w:; to evaluate
'Llic contribution o-f the V~,.riation i,,i ~~iiort--vanr-c to
variatioll in nro-icrtief; oi' Ct~-Al alloys during 'acct-tz-cc-t;-.cnt.
UsinS 'Llie theoretical coace-A-, of d(~ir, -,nd
11, no. 5), Le e Ir "'.c t C. ;:, et 1 11
Claire anc( _0;2
experimental data di-te "--o Eous:,-a anc: Averbach '%j.
30, no- 10) on the :)robability 9., o-- a ,,-ve:i ILune.
.-J
of an atom A beint, satisficc: by an atom t:,o :)roLcnt nutliars
calculated tlie wlues of ztvid tLie para.,-iatc~- of t.'~Q
order c for the 14.3 at-~ ----Cu alloy a- G - 1
results indicated that a- com3iderable degree of sliort-ram,-e or.~ ,I er
Card 1/3
Y
The tot;),)oraturL~-dr-.pezi(ILr-ice ....
17
was retained in the alloy studied even at tei-.j-.>eratureS approachin,-
its melting point. The valucs of w obtained t-,
esti,tiate tlie variation in electrical resistivity to
c-raclual (:-~-structioi of order 3n lh~--ZIT-Inl; 1-~
t1hat the resistivity of tlie -~-lloy should gra-dually increz~z;c
increasing temperrature. The "e.-.iperature-dapendence 0.-
I)A13 -"- O's
used to determine the tei-aperature-de.-pendence of the energy required
to destroy the short-range order. Finally, ti-e heat offect
associated with disorderinE; -v.-~ts experimentally
S tudyin.- t a e or atur c-c! ~~.) e,- --* c:nc e o i' t 11 c s -3 fic I -L:1 0
17.3 at.~, Al-Cu alloy. The results obtained for this alloy are
reproduced in Fig. 3, showing the temperature-dependence of the
short-range order paraiiieter I L.
(cr , ri'-I'htliand scale, curve 1) lie
energy required to destroy the short-range order (4~~ B, cal/rnole,
lefthand scale, curve 2) and thc neat efl-ect due to di~~orillo~-i2~--
ca-1/mole, lefthaiid scale, curve 5). The fact, tilat CurV05
and 3 in Fim. 3 dic! not coincicle at aiZh
indicate tl-iat transfor:-.1ations in the solid CU-A!
Card 2/-,
S/126/63/015/CC2/CI7/C535I
The temracrature-dependence .... E193/zI33
associated not only ifith chan~;os in the degree of" short-range
order but mith other T3h enoai cna - There are 3 figurer, and I table.
ASSOC19VION: Sibirskiy 'Ciziko-taichnichoskiy institut
(Siberian Physicotechnical lnz;titutc)
SUB'Y! iT:,.:D, July 10, 1962
Fig. 3:
Card 5/3
V
0
6
,
kq
r, L
6,10 30-0 T
7777777T~
PANIN., V.Ye.; SIDOROVA, T.S.; SOLISHANINA, M.A.
Characteristics of alloy hardening iflth a low energy of palk44
defects, Fiz. met* i metalloved. 14 uo.2:238-243 Ag 162. (kRA 15:12)
1. Sibirakiy fiziko-tekhnicheskiy inBtitut pri TomBkom gosudarBtve m
univer~itete.
(Alloya-Hardening) (Crystal lattioqs)
pANIN., v.ye.; FADIN, V.P.; BUSM&V,'1: -S.~; YJIUMA, G.G.
Iiaomplets ~16=6-rangs order in Ctt-A! solid stfLutionx. Ukr. fiz. Our.
(MIRA 16.2)
8 no.2;206-210 F 16.
1. Sibirskiy fiziko-tekhnicheskiy inatitut, g*TOmsk*
(Copper-aluminum alloys)
FADIN, V.P.;J~A#!X.. Me-a.; DUBAREV,, Ye*F.
Nature of ordering in Cu-Al solid solutions. Ukr. f12. zhur. 8 no 2:
210-2.16 F 163, (MIRA 16:2)
1. Sibirskiy fiziko-tekhnicheskiy institut, g. Tomsk.
(Coppe641~num alloys)
"IM
BOYEV, Sergey Nikolayevicb., akademik; SOKOPVA, Iya Borosovna; PAM,_
ViktDr-YzkcvJzvJxl4--Sll---VCHUK, T.I., red.; LEV331, M.L., red.;
RCROKIWA) Z.P.p tokbn, red#
[Eelminths of ungulates of Kazakhstan; in two volumes]Gell-
minty kopytm7kh zhivotriykb Kazakbstana; v dvukh tomakh. Alma-
Ata, Izd-vo Akad.1nauk Kazakhskoi SSR. Vol.l. 1962. 373 P.
(MMA 15: 10)
1. Alcademiya nauk Kazakhakoy SSR (for Boyev).
(Kazakbstan-Parasitea-Ungulata)
(Kazakhstan-Worms, Intestinal and parasitic)
MM
i MM
, 'r
S
BUSHNEVI L.S.; HINAYEVA, G.G.; PANIN, V.Ye.
Electron microscopy of dislocation loops in hardened Cu-Al alloys.
Fiz. met. i metalloved, 14 no.3:470-472 S 162. (KRA 15:9)
1. Sibirskiy fiziko-tekhnicheskiy institut.
(Copper-aluminum alloys-Metallography)
PANIN V-Ye.; FADIN, V.]?.; SOLOVYEVI L.A.
na in Cu-Al alloys. Fiz.
Investigating the ordering phenome MRA 1513)
met. i mBtalloved. 13 no.2,219-224 F 162.
1. S:Ibirsk:Ly fiziko-tekhnicheskiy inatitut.
(Copper_aluminum alloys-l*tallography) (Solubility)
9/62/00o/oo6/008/032
3/13
F,193/E583
arev Ye-F*
V.P. and Dud
Panin,~'V.Ye- I Fadins ges Of
AUTHORS: the nature of the chan
nroblez' Of CU-Al solid solutions
-.TITLE: on the resistivity of
ei;actrical
at-troatment Fizilza
during 1~
bnykh zavedcn"Yt
1z'V'dstiya VYsshilth ucho
pERIODICAL* no. 6, k262, 48 - 51 al resistivity
to. Cole ' theory, the electric is given
According ys at a given temperature T
T_L, XT: 'eti- allO
Of nonferromag
mat ely by:
aqproX3- e = F(PA + PT ctivelY,
es due, resPe
ttering disturbanc,
are sca f Ction of the
where P A and PT and F isa Un alloy
ermal disordering . '18 -For an
to atomic and th the conduction ejectrox or
degree of freedom Of T and for T" 0
quenched from a temperature T1
T Tl
becomes: '05 F. P A
~0
Card'1/4
S/139/W000/006/008/032
On the problem of .... E193/D-383
here is the residual.resistance ind the index T indicates
a
0
the tem'p'erature from whic-h..*the alloy has been quenched. Combining
Eq. (2) with the equation for the temperature coefficient of
electrical resistivity*
T T51
3
it can be shown that:
T. 'T T_
21 6
=:K F
T T
where k-a OPT /6T T, Since it is easy to show that the
relative variation in k is equal to the-x~alative variation in
Young's modulus, the variation in the latter property as a function
of the degree of order in a Cu-,~l alloy was studied. Experimental
work was carried out on two alloys: a high-purity Cu+14.3 at.0/0'
Al alloy and a technical-grade Cu+14.9 at.",,' Al material, both
preliminarily annealed by holding for 2 h at 750 OC and Cooling
at 50 0C/h. The Young modulus was determined by measuring the
natural vibration frequency of specimens quenched from various
Card 2/4
in
S/139/62/000/006/008/:032
On the problem of .... '3
B193/106
the forces of atomic interaction by the order-disorder trans-
-Al alloys is very small, not exceeding 30'
formation in the Cu
for alloys quenched from 450 C. There are 2 figures.
ASSOCIATION: Sibirskiy kilziko-t elchnich eskiy
institut pFi' Tomskom gosuniversitete L
imeni V.V. Kuybysheva
(Sib crian Physicotechnical Institute
of Tomsk State University imeni
V.V. Kuybyshev)
SUBMITTED: January 23, 1962
Card 4/1,
Fig. 1
V~'
SIDOROVA., T.S.; PANINS V.Te.; BOLISHANINA,, M.A.
Investigating the nature of low-temperature transformations in
deformed Gu-Al alloys. Fiz.met.i metalloved. 14 no-5050-756
X 162. (MIRA 15:12)
1, Sibirskiy fizikD-tekhnicheskiy.inatitut.
(WVONMUminum alloys-Metallography)
(Deformations (Mechanics))
s/i26/62/014/005/007/015
E193/E383
AUTHORS: Sidirova, T.S., Panin, V.Ye. and Bollshanina, 1M.A.
TITLE: A study of the nature of low-temperature transformations
in deformed Cu-Al alloys
PERIODICAL: Fizilca metallov i met al loved e*niye, v. 14, no. 5,
1962, 750 - 756
T EXT: The object of the 'present investigation was to study
the changes talcing place on heating in'preliminarily deformed
alloys with a low-energy of stacking faults. Experimental work
liras carried out on the 14.3 at.%' Al-Cu alloy. It consisted of'
determining the effect of ageing on the density D , electrical
resistivity E, , temperature coefficient of I? and micr8hardness
of a) specimens annealed in vacuum foe 2 hours at 1 750 C and
b) specimens that, after annealing, had been deformed at room
temperature to, 11, 13, 27 and 44% reduction; , in the latter case, tile
-first measurements were carried out immediately after the plastic
deformation. Ageing was effected by raising the temperatur of
the specimens (either continuously or in stages) up to 800
heating was periodically interrupted, the specimen quenched and its
Card 1/4
S/126/62/oi4/005/007/015
A study of the nature of MWE383
properties measured at roam t el-il I.) eratur eThe temperature-
dependence of 0 of both c Iold-worked nrid annealed specimens wis
also determine&. The resul'ts for annealed specimens- and the
material given a slight plastic deformation are shown in Fig. 2;
the scales (from right to~f,eft) relate to microhardn
C9/mm9) and (A VD)io" ;' i curves I and 11 show the variation in Z'
' curv.es 21 and 5 the chai-rge of J-S D/D and curve 3 the variation
.in microbardness! curves. 1-3 relate to specimens deformed to 8y.
reduction, ciirveg It an~d 5.-to annealed specimens. Fig. 11 presents
results equivalent to those reproduced in Fig. 2, except that in
this case the deformed spqcimens (curves 1-3) have been giver, 44%
reduction. Conclusions '. 1) Ligrht-plastic deformation/oV an
annealed Cu-AJ. alloy brings.about additional ordering of the
alloy, as a result of which of the annealed specimen,-, is some-
what higher than that of annealed and cold-worked material. A
further increase in the degree of order (indicated by a decrease
in e ) is caused by heating a light1v deformed specimen to n
temperature of up to 200 OC; di.-iordering takes Once nt hiphr~r
temperatures. 21 The deformation-induced increase in strength
Ca r d a A
S/126/62/014/005/007/015
A Study of the naturc! of- r.193/F,383
of AI-Cu alloys is caused by stacking faults and associated
Suzuki atmosphnrs; the increase in strength due to short-range
order is insignificant. 3) 'rho first stage of the decrease in
on heating a lightl.y deformed Al-Cu a1loy is not caused by
ordering al.one, a considerable part being played by the formation
of additional Suzuki atmosRhores. Whereas the first stage of the
decrease in P (below '100 C) is determined by the diffus'ion
mobility of' the Al atoins in the alloy, *the second stage (higher
than 11500C) is associated with softening of the alloy due to re-
crystallization. There are 5 figures.
ASSOCIATION: Sibirskiy J*iziko-tekhnichenlciy institut
(Siberian Physicotechnical Institute)
SUBMITTED: February 26, 1962
Card 3/4
S/126/62/0l4/oo4/oo5/ol7
E132/El6o
AUTHORS; Fadin, V. P.~ and Panin, V*Ye
TITLE; Theory of the kinetics of ordering in solid solutions
of Cu and Al
''PERIODICAL; Fizika metallov i metallovedeniye, v.149 no.4, 1962,
517-522
TEXT: on the basis of the theory of I,N. Kidin and
M.A. Shtremell (Piz. met. i metalloved.p v.ll# no.51 1961)
theoretical isothevms of the kinetics of ordering during annealing
of quenched solid solutions of Cu and Al are.derived.
Theoretical and experimental isotherms are compared and agree
satisfactorily for low quenching temperatUres, but there are sharp
divergences for high quenching temperatures. The alloy used for
testing the theory was Cu with 14% Al, vacuum malted. It was
quenched from 320 and from 600 oCt at which temperatures the
degrees of disorder are substantially the sameg but the ordering
processes a ubsequently differ because of the different
concentrations of quenched-in vacancies. The short-range ordering
Card 1/2.
8/126/62/014/003/018/022
E193/E383
AUTHORS. Bushnev, L.S.,, Minayevas G.G.*and Panin, V,Ye.
TITLE: Electrofi-microscopy examination of disl6cation loops
in A quenched Cu-Al alloy
PERIODICAL: Fiz:ika metallov i metallovedeniye, v. 14, no- 3#
.1962, 470 - 472
-TEXT: It has already been established that orderin' jv_
g of
Cu-Al alloys, disordered by quenching from relatively high (800
900 OC) temperatures, is accompanied by other side effects leading
to anomalous variation in the properties of the alloy.. The
results of the investigation described in the present paper showed
that coalescence of excess vacancies and subsequent formation of
dislocation loops played an important part in these processes*
on/a
The experiments were conducted vacuum-melted alloy containing
14#3 at.% Al. Transmitted-light electron-microscop .y was-used
to reveal the formation of dislocation loops'in thin (1 000
2 OOOA thick) foil specimens obtained'by'ei-e'ctrolytic polishing
of preliminarily heat-treated 0*2 mm thick strips. The heat-
,treatment consisted of*quenching the alloy trom 900 OC and ageing
Card 1/3
r V1
El S/126/627614/oO3/018/022
ectron-m'i6roscopy examination... t,
B193/E38
t for one'11hour at 1009'."200 or 300 C. A'1~&ge number of
dislocatio 0 we
6 loops, meagVring 300 - 500 A, "ie observed in
specimensraged at 2()0 ot'. Theonumber of di~iocation ioops
decreased after ageing at 300 C but their size increased -to
800 - 3 00b A. Similai'effects had been obierved previously in
other allots. Other effects of quenching from high tempeEatures
are demonstrated in Fig. 2, where the hardn.'~s (HV, kg/mm ) is
plotted against the ageing temperature ( 0C) Pfor specimens prel-
iminarily quenched (curve 1) or slowly cooled (curve 2) from
900 0C. It will be seen that the ageing-induced hardness of the
preliminarily quenched.specimens was always,higher than that
of material-that had been slowly cooled before ageing. This
differencet which cannot be explained in terms of the disorder-
order transformation, i~ obviously associated with the presence
of disloca:tion loops ift" the quenched specim'bne, it having been
shown by Mori, Meshii and Kauffman (Acta metl, 1961, 9, no. 1,
71) that di:slocation loops brought about a m6rked increase.-in the
strength of' alloyal thib effect persistingioven at relatively
high-tempefaturts, The'results of the predth't investigation shbw
Card 2/3
S/659/62/008/000/021/028
1048/1248
AUTHORS: Panin V.Ye., Zenkova, E.K., Fedin, V.P;, and
_12;~
K ~avtseva, L.A.
TITLE: The problem of high-temperature diffusion transformfttione,
in solid solutions
SOURCE: Akademiya nauk SSSR. Institut 'metallurgiip Issledovaniya
DO zharoprochnym, splavame vo(3, 1962, 161-168
TEXT: The alloys (Cu + 14,9% Alj, Cu + 14.9% Al + 0.025% P. Cu +
14.9% Al + O.Ob~ P, all percentages atomic) were homogenous solid
solutions up to 10300C. The electric resistivity of the alloys
measured at room temperature, was a function of the quenchin tem-
peraturo (T ), reaching a maximum value of 10.48 and 11.02 micioohrl*
cm. for pur5 and P-containing alloys respectively at T =400_5000C;~
The P of the alloys quenched in water was higher than hat of the a ;"-
alloys cooled in Air. The hardness (H - T relationship was simi-
lar to the Tq one, with Hv(max)= kg,~sq,mm, for the pure
Card 1/.3
1048 -/62/008/000/02.1/028
The Problem Of' high-tOmperature diff /1248
allo usion,.,
in y quenched from 4500 in water* This indicates
is
ri~m t n
Ot caused bY excessiv vacancies in the al 0y,
e P-1011taining alloys that the Increase
their mob I and that the
ale 10weril'ty- 130th P and 11v Comb'nes with the vacancies reducing
than in non in the alloys quenched from
of a highly ordered s -quenched
tructure specimens, indi 7000C
temperntures cating the existence
- During anrealin in the alloys quenched
nealing temperature g,.p decreases with tim -from high-
larger than In the ` the Cacrease in e at the an
quenched P-containing ones the Pure alloys being much
P i.e., the
activatto state is much higher in P -stability of
-containing alloy,,.
n Of the diffusion Processes increases h the
T 11 energy c,f
Of the alloy and reaches 35�3*7 kcalg/mole in an with the P content
0-06% P, which is aim alloy containing
due to the decreased mobijit.
loys. Ost twice the value for the Pure Cu-Al all
.7 of vacancies in the P-containing a01Y_;
Diagrams show the eff~c Of temperature on the electr re-
sistivity and internal frict t io
'Or' In the alloys. In the friction
S/13 9/6 2/000/003/018/021
E19-;I/F,383
A Ul~` A 0.115: Pani adin, V.P., Bobyreva, G.A.
TITLI~: The affect of purity of the alloy on the character of
orderinE in solid Cu-Al solutions. I
PERIODICAL: izvestiya vysshikh uchebnykh zavedeniy, Fizika,
no. 3, 1962, 153 - 159
I M C'T I-L has bee-n established in the course of several
car-licr inves 'i-ations tZiat the disorder-order trans formation
in Cu-Al alloys can be considerably affected by the degree of
purity of the alloy. Since they were indicatLcristhat P was one
of tae impurities responsible for the different.behaviour of
various specimens, the investigation described in the present
;,.:)aper 1,.ras undertaken to study the effect of trace quantities of
this element on the ordering trans f ori-Liat ion in the alloy under
consideration. The aa,.porimental matorialB comprised a high-
purity vacitui-ii-moltod alloy eontainin,&-, 14.3 nt."o' Al and two
coi=,.ercial-grado alloys containing 111.9 at.%'I Al and 0-025 or
0-7 Wt-010' P. Various test pieces were heated in vacuum at
twaperaturos ranging from 100 800 0C and then cooled in air or'
Card ILAI.
J
~TA
S/1-9/62/ooo/oo3/018/021
The effect of Purity .... F,193/ U 83
water-quenched, after which they were aged isothermally at
various' temperatures or heated sloWly through the disorder-order
ransfori-.iation ran-e, the progress of the ordering transformation
bein,(, studied by measuring the electrical resistivity and-deter-
minin- the temperaturo-dependonce of both the electrical resis-
tivity and specific heat, of the test pieces. The activation enerEy
of the process studied -was also determined. Several conclusions
were roached.
1) The disorder-order transformation temperature range is
t;reatly affected by the degree of purity of the alloy and is
shifted toi..,ards a higher temperature with increasing impurity
content. Thus,,for instance, tho temperature corresponding to the
inaximum intonsity of ordering in specimens containing 0 02g and
0.07% P, quenched from 500 OC and heated at a rate of 0:6 C/min,
was 1,57 and 227 OC, respectively.
2) With increasing P content, the aetivat�on energy for ordering
in Cu-Al alloys increases, amounting to approximately 17 kcal/mole
for the pure (P-free) material and 26 and 35 kcal/mole for
specimens containing 0.025 and 0.070a' P, respectively.
Card 2A
The effect of purity ....
s/i3 9/62/000/003/oi8/o2i
B193/1;383
ASSOCIATION: Sibirslziy fizilco-tel-chnicheskiy institut pri
Toiazl -om gosuniversitete imeni V.V. Kuybysheva
(Siberian Physicotechnical Institute of Tomsk
.State University imeni V.V. Kuybyshev)
-3V November 30, 1961
'i
Card
5/139/62-/000/003/012/021
F,193/B385
AUVI-110~'!S: Kudryavtsova, L.A. and Panin, V.Ye.
TITLE: Tac temperaturo-dapendenee of internal friction of
Cu-Al solid solutions
PERIODICAL: izvestiya v-ysshikh uchebnylth zavedeniy, Fizilca,
no. 3, 1962, 95 - 98
T 1 -:,-,T In undertaking the present investigation, the authors
ro-mpted by t? o lack of understanding of the nature of
transformations taking place in Cu-Al alloys and leading to
anomalous variation in the properties of these alloys 'on heating.
.Ae r.,ain objective was to establish whother th; alloys obeyed
law-s typical of ordering alloys and, if so, how these laws were
affec'ted by various factors such as thermal history of the alloy,
presence of iripurlties, etc. To '.his end internal-friction
moasuranionts i-,rorc carried out at temperatures between 18 and
700 0C on high-purity, vacuum-meltod alloy containing 14.3 at.O.;
Al and on cormiercial-grade Al bronzes (14.9 at.91. Al) which, among
other impurities, contalned 0.0250o'o phosphor. The results for the
Card 1/4?
Th'o temperature-dependonce o-oo
s/139/62/000/003/012/021
E193/E383
high-purity alloy are reproduced in Fig. 1, where the internal
friction (Q71) is plotted against temperature (oc~ , curve 1
relating to homogenized material (6 hours at 900 C, cooling at
50 0CA to 6 00 OC, 3 hours at 6oo 0c, furnace-cooling to room
temperature), curves 2-4 to specimens quenched from.500, 700 and L.1
goo 'C, respectively. Similar curves for.the commercial-grade'
bronze are reproduced in Fig. 2. Several conclusions were reachecl.
1) The results obtained confirmed the view that the disorder-
order transformation took place in the alloys studied.
2) :The character of the temperature-dependence of internal
friction of this alloy depended on its thermal history and the
dolm.ree of its purity.
3) The internal-friction background increa 'sed with increasing
qiuenchin- temperature, reached a maximum for a certain temperature
T0 and then decreased again. Increasing the degree of purity
of the alloy shifted T 0 towaj~ds lower temperatures.
4) An additional intarnal-friction pealc at 70 0C appeared in
Card 2/p
32215
k t1 ~ I I ( 1) ?Pan 1 11V "11111 1 V I sill(o% aT I.,
TITLE. On the stimi~3ating ei Voct of defal 11110 lon oil
so I-A on I n.W do ri, n g C-~: t (-T).-ZJ 01)
13 1': R 11) ('A 1, Tzve,,tiva vvszshikh ucht-bnvkh zovedeniv Hho
.1 ()(,) U91 - 2 7
no,
TEXT In earl i cr work the aut.hors and thet r team I tid! od
1. i m 1) 1, it t i ng i n fl u Pni: c o f deformo t j fill n t h P so fl- ening o F po I V
C?-ystali ine copper during con-tiression 'in 1-1le Case of extenXion
the deformation is more uniform and the stimii1ating effect oi;
soften.xng may be less pronounced. The authors invest gated
this problem under vari.ous conditions of secondary high
ture deformation Tn the experiments 0 5 min diameter 90 min .1,,,11154
copper wire was Atretched at room temperature by 24T at a rri,#, 0,
5~'Vmin Following that some of these specimens were add i (-,P-
ally stretched at a higher temperature at the rates of 0
and 30A'~/jnin, respect:i.vely For the duration of this d e f (-- 1 in, i i
the remaining specimens Were merel-v annealed at the same I
ture Following that the resistance to deformation at rooin
Card 1/4
32215
On t h v s t i mu I a I j tig f- Ffe r- ? P f S/ 13 9/f) J AOU/004 /(),) f
E, 0 7 3 / E 9 15
temperattir(- of a] I the specimens was tested, Th o t em p e r i; 1,
of' the secondary dpt'orillal ton was 8o chosen that there ---diould 6
no reversal dijr-ing ordinary annealing at thest,- lempf-ratut e ~~ i f,
the case of uniform teuston, this range may be large and i. n V,
gi,.o-en case amounted to about 230~c The invest-igation,~ ha i
Q~hown 1-11;1C the stiml))~AI01.v effect. of' dt~forinatjnn algo
the (-,-tstz of extellsion 11111 comparf'd to compi-essi-01) . ; - I
Ti,~onou.ric-cd and wjJI noc alwj~ys occitr F-g I shows the (40i v I
rz~,sxili,s fi-rue stress, kg/mm vs- redla.~tion. Curve I-
te, specimens not additionally deformed (i e. which weri- ouly
z is that have been
annealed). curve 2 relates to speci-mej
stretche-d by 1 5-14 kit 200cC at, a rat(- of 0 clifvz. 3
relates to specimens wh-ich have been anne-al,ed only at
being pre-Utninarilv ~xTrctched at 20-'C,. curve 4 relaleF- to
spec-imens that have bei-ri additionally de:formt-4 at 200 ( al-i
being preli.mirtarily ~-tretched at 20'C. According to (uTvf-~-
If the specimens tlial ha-%-e been additionaily stretched or C
have a remslance 10 Of~!*OrMiA110TI duv~n7
o Spuc,"14,11, )~-o
3 2 2-15
On. tile, stimulating effect of S/139/61/000/004/004/023
:E073/E535'
annealed only at that temperature. For specimens for which the
high -temperature def ormati.on.':--was* carried out ~ at'arate of 30%/mini,
the.differenbe-dropped-to 'A' 0.2-0.3 2.
on kg/mm If at this higher
deformation rAte",the additional deformation was increased to
the effectbecame negative. The authors did not arrive at final
concl-usions rel4ting tb the nature of the stimulating influence
-of the secondary deformation on softening, which is associated
with lelirainit.ion of-preliminary work barde'ning,at a lower
temp6ratuie.,- The reduction of the low temperature work hardening
depends'onthe'speed'and temperature of the second high temperature
deforniatfon. There-are.l. figure and 20-references: 13 Soviet-
bl66---and 7 non-Soviet-bloc. The four latest English-language
refe'renci~s.reacf,as follows: Ref.ll:'.Titchener, ~.B.Bever. Acta
met 9:"1959; Ref.'14: T., Br 'oom, 'R.Ham. Vacancies and other
Point Defe'6ts'in-*Yjetals'and Alloys,.~-9- 1958; nef.15: A.H Cottrell,
R.J.Stokes. Proc.,R6y. Soc., A 233, No.1192, 1955-56; Ref:16:
Adams, A.H*Cottrell. Phil.Mag., 46, No-382,- 1955.
-tekhnicheslciy institut pri
ASSOCIATION; Sibirskiy fiziko
Tomskom go'universitete imeni V. V. Kuybysheva
Card
FANIN, V.Ye.; UZZUKOVA, T.F.
Sti=-Iating effect of a deformation on softening in tensile tests.
Izv.vyv,ucheb.zav.,; fiz. no.4s23-27 161. OKM 14:10)
Sibirskiy fiaiko-tekhnicherkiy inatitut pri Tomskom
gosudarstvennom universitate imeni-V.V.Kuybysheva.
(Deformation (Yzchanics)) (Strength of materials)
MAXOGON, H.B. L PANIN,,_ V.Ye.; SUMOVAROV, V.F.
Stinulating effect of straining on softening during the d&-
formation process. Isal.po zharoprooplav, 4:50-57 159.
(HIU 13:5)
(Metals-4.71d working) (Deformations(Meabanics)
PAITIN V Ye - MAXOGON, Y.B.
Anomaly of the temperature-rate dependence of the deformation
resistance of aluminum bronze. Izv.vys.ucheb.zav.: fiz. no.3*-
142-145 6o. (MIRA 13:7)
1. SibirsIdy fiziko-tekhnicheakiv institut, pri Tomakom
gosuniversitete im. V.V.ZtWbysheva.
(Aluminum bronze)
(Deformations (Mechanics))
0 67911
of .7 N OV/20-129-5-17/64
S
AUTHORSt Paning V. Ye,, Zenkova, E K.
TITLEt The Problem of Superstructure in Aluminum Bronze
PERIODICALs Doklady Akademii nauk SSSR, 1959, Vol 129, XT 5P pp 1024-1027
(USSR)
ABSTRACT: The present paper deals with a more detailed investigation of
the ordering-phenomenallin aluminum bronze'%-nd of the influence
exerted by superstructure upon the course of the plastic de-
formation of the alloy at various temperatures and velocities.
The investigations were carried out with an alloy, viz. a solid
solution of Cu + 15.9 at% Al. The authors repeated earlier ex-
periments concerning ascending diffusion and obtained the same
results. In the case of the alloys under investigationt usual
aluminum bronze thus appeara to be concerned. In order to be
able to investigate the state of the alloy, the specific heat
Cp, the electric resistivity Y # and the Vickers hardness HV
were measured at a load of 5 kg. Hardening temperature exerts
considerable influence upon the state of the alloy. Alloy hard-
Card 1/4 ness increases with rising temperature within the interval of 4K
67911
BOV/20-129-5-17/64
The Problem of Superstructure in Aluminum Bronze
400-6000, after which it decreases sharply until 9000. The
electric resistivity here increases until 5000, decreasem
slightly at 6001p after which it rises again. This is apparently
due to tbo deoreane in the degree of the short-range order.
In the case of a hardening tomporaturo of more than 53509 the
alloy approaches the solubility limit. With an incrnaoa in
hardening temperature, especially to more than 53509 the alloy
deviated more and more from equilibrium. Hereby the ordering
process in the alloy is facilitated and the temperature of
the specific heat minimum decreases. Especiallyt the state of
the alloy quenched at 5000 was thoroughly investigated by de-
termining the kinetic tempering curves of the Vickers hardness
'IV and the electric resistivity at various temperatures. The
tempering isothermal lines of electric resistivity have the
usual shape. Among the tempering isothermal lines for hardness
the curve for 2801 is, above all, conspicuous. It first has a
sharp maximum, but later hardness decreases considerably and
the curve takes a lower course than all other isothermal lines.
Card 2/4 Already a slight deviation of the tempering temperature from
67911
SOV/20-125~-5-17/64
'-"!ie Problem of Superstructure in Aluminum Bronze
2800 changes the shape of the isothermal lines considerably.
The hitherto discussed results clearly indicate the existence
of a superstructure in aluminum bronze, An alloy quenched at
5000 is ordered at 2800. Naturallyp the superstructure of
aluminum bronze must become noticeable in its plastic deformation,
This influence naturally depends on temperature and on the de.
formation rate. The authors investigated this during the com-
pression of the alloy Ou + 15-9 at% Al at the velocities
v3 ~ 6 mm/minj v2 = 0,05 mm/minij and v1 = 0.005 mm/min within
the temperature interval 20.6000. At from 20 to 2000 the.
velocity exerted practically no influence on the resistivity to
deformat ions Also the deformation temperature influences the
position of the flow curve only little. At 3000 the velocity
exerts an inverse influence upon resistivity to deformationp
and the wave-like course of the flow-curves is distinctly
marked. Within the entire temperatur e interval 20-3000 de..
formation is jump-like. Above 3000 temperature and velocity
exert a normal influence upon resistivity to deformation. The
Card 3/4 results thus found agree well with the concepts-on the super-
67911
SOV/20-129-5-17/64
The Problem of Superstructure in Aluminum Bronze
ritructure-in ~he alloy. The results obtained by the present
paper apply to a less extent also to the alloy Cu + 10 a4 Al.
There are 4 figures and 11 references, 7 of which are Soviete
ASSOCIATIONt Sibirskiy fiziko-tekhniche,skiv nauchno4wiseledovatellskiy in-
stitut pri Tomskom gosudarstvennom universitete im. Vo Vo Kuy-
bysheva (Siberian Scientific 'Research Institute of Physics and
TedhnoloK-v*of Tomsk State University imeni V, V. Kuybyshev)
PRESENTED: Augus t 6, 1959, by G. V. Xurdyumov Academician
SUBMITTEDs July 30, 1959
Card 4/4
'BOLISHANINAD m.A.; maown, H.B. I. PAIII11- V-Ye'
Temperature-rate relation-urt ~~' iiance to deformation of
copper and its alloys. Isel. PO zharopr. splav. 3:189-2o5 1 58.
(KRA 11'.11)
(Copper alloys--Testing) (Deformations (MeChanics))
(Metals at higbtamperaturs)
/139/60/000103/00P45
saWS33-4 of tlic
14. v 0 Idence
d 140:ogo!!~~ed Depe" ,,,nze
V.ye all -:~~ e-SPe . n:Lum
P xvilk Wo--' Tomporatul: Of )a-'jiml
11ORS lz~~ f the at:Lon
AUT Aaomaly 0 to 1) ef 7'aved
e istalice che JI"h as to
T R S ;tj-ja V155hJ- 3.1j5 (,USSR) S paper N't. Olm
Z-V e5r l42
39 pp 11 t1jil proGesse bro-Aze
described 1 inlum
re-RIODI-CAL, 3.960, the worlrc rkce of hardeningof alulu d5.
0 ,f 1xie rmat'on - .0 Spec brorLze
aJm defO matlo . jum
)03STuP'CT The date the I ast3.0 & defOr alUM3.11
e UC SS of P S aa t on an ution nearijis
r0 re . rature - ed 011 Sol were
t e LOU5 tevaPe Garri. lid n9
ar3 Were h JS a so St3.Sa't:LD
at -0 Th e iliv e -ius various *e
r
'stizat3 'wh tures 'LIS t evap eratu,-
~ at*VO lab:Ll:Lt'y' all
Cu+ f so ,,P er a of t e hows
te urvP S
dar J 0 riOus ation
the bo lit at va j.011. The c to def Ortu the
Garri4~-d 0 55 .,tnce temperature first then
compre asi.119; 1-Y at hw-rp
,,,, res'.
speeds 0 of t . t1n, JUG re S WY a 5
delar, e vr-L ti.011 drops fo, jowe the
depe"'L namelly 1 0
def ornia 11 JS
"nomall to . um WhJG inning
,tauGe nay-lm
resi! S to a txire Of the beg
j.ncr eas e nera
dr OP - The te
rardl/3
Anomaly of the Temperature-speed
Deformation of AlumInium Bronze
S/139/60/000/03/026/045
ZRZ2~E3gj the Resistance to
Depen e
intensive softening depends on the conditions of
deformation; increase in the speed of deformation
brings about a shift in this temperature towards
elevated temperatures, whilst an increase in the
degree of deformation brings about a decrease in the
observed effect and may even lead to its cessation..:.
Inthe range of anomalous temperature dependence of
the mechanical proper-ties, the deformation is in jumps
and there is an anomaly in the dependence of the resistance-
to-deformation on the deformation speed. Such anomalous
temperature-speed dependence of the resistance-to-
deformation was also observed to a lesser extent in
-the alloys Cu + 10 at.0;10 Al. There are 3 figures and
13 references, I of which is international, I English,
I Japanese (in English) and 10 are Soviet.
Card 2/3
S/139/60/000/03/026/045
KW3/Ej3
Anomaly of the Temperature-speed DependAE e o 2he Resistance to
Deformation of Aluminium Bronze
ASSOCIATION: Sibirskiy fiziko-tekhnicheskiy institut pri
Tomskom gosuniversitete imeni V.V. Kuybysheva
(Siberian Institute of Physics and Technology
of Tomsk State University imeni V.V. Kuybyshev)
SUBMITTED: July 6, 1959
Card 3/3
Ct
40
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lob
110
U*Slt G
Pirneitic VlorMh
T~bs4 Jour '-nur oo2719
Author Panin, V.Yi.
InStitUt, Zoology, Arnt,'emy of' '-.ciences "a
T I t1o Variability of LiorrAnolo '~ic i,~nn ar-o Int)ortonc
in tILe Cjns;si;icatio,-. of t)e Trewato(!e.~, of the
Uenuq ProfAi-ioponimus Lullie, 1909
Or ig Pub. 'Ir. In-ta Zool. AN' KaiSSR, 1957, Vol .7, 17U-2L5
Abstract On the basizi; of an anal-,sis of the -wrau-~.Ai.oi-,s in
morphologic rien8 in t;te ~-enus Pro!3thogoiiirrius,
signs were demonutrated witich -md taxonemic sir-
nificance (position of the caudal limits of the
vitellaria with resT)Oct to the t0stes, the position
of Ue ovaries with respact to 'che ventral iiucher,
and tho position of the uterine IooP with respect
to the branches of the iatestine anc~ t4e ventral
sucker). Revision was carried out in the genus.,
as a resalt of witich tio genus rof.;thoP~rjni;;ius now
contains 7 sPecies. Determinative tables, detailed
descriptions, ane. information i)D the hiolopT of
thene specios are* given. Biblio(,ra0v 47 Litles. -
Card: 1/1 P-Wrinetsi,iqkaya