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VYSOKÉ UČENÍ TECHNICKÉ V BRNĚBRNO UNIVERSITY OF TECHNOLOGY
FAKULTA STROJNÍHO INŽENÝRSTVÍ
ÚSTAV STROJÍRENSKÉ TECHNOLOGIE
FACULTY OF MECHANICAL ENGINEERING
INSTITUTE OF MANUFACTURING TECHNOLOGY
NUMERICKÁ SIMULACE PLNĚNÍ A TUHNUTÍODLITKU
NUMERICAL SIMULATION OF MOLD FILLING AND CASTING SOLIDIFICATION
DIPLOMOVÁ PRÁCEDIPLOMA THESIS
AUTOR PRÁCE VLASTIMIL KOLDAAUTHOR
VEDOUCÍ PRÁCE Ing. VLADIMÍR KRUTIŠ, Ph.D.SUPERVISOR
BRNO 2008
FSI VUT 4
Abstrakt: ,
odlitku , analyzovat
tvaru odlitku
V
f . S ohledem na typ vzn
Abstract: The object of this diploma thesis is to analyze, persuant to numerical
simulation of current technology of production aluminous casting roller-reck V9X, causes of the rise of cold lap and laminations defects. Consequently, to work up a project of variant solution of the shape of casting so, as to come to elimination mentioned defects. This variant solving will be tested with numerical simulation as well. Fruitfulness of these designed changes will be verified by testing molten of the casting.
In terms of solve the problem the simulation of cycling of the mold and subsequently the filling of the casting will be effected. During the analyse of filling of the die the first phase of filling will be effected too.It means the movement of the piston throught the chambre. Simulation of solidification of the casting wont be effected because of the type of the defect.
Key words: High pressure die casting, Numerical simulation, Cold laps, Lamination
FSI VUT 5
:
vypracoval , s
a Datum
FSI VUT 6
:
.D. a Petrovi Nuskovi za rady
FSI VUT 7
Obsah:
1 .................................................................................................... 9
2 ................................................................................. 10
2.1 ................................................................. 11
2.1.1 horkou komorou ........................................... 11
2.1.2 ..................................... 12
2.2 ...................................................... 14
2.2.1 .................................................. 14
2.2.2 ................................................................ 15
2.2.3 ................................................... 16
2.2.4 .......................................................... 19
2.2.5 ............................................................. 19
2.2.6 ............................................................ 20
3 -odlitek .......................................... 20
3.1 ..................................................................... 21
3.2 ..................................................................... 22
3.3 .................................................................. 22
3.4 -odlitek ........................................... 23
3.5 .................................... 23
4 .................................................................... 24
4.1 ................................................................... 24
4.1.1 Zavalenina (cold lap) ........................................................... 24
4.1.2 .................................................... 28
4.1.3 ..................................................................... 30
4.1.4 ................................... 30
5 ................................ 32
5.1 ......................................................................................... 32
5.2 ....................................................................... 33
5.3 ........................................................................... 34
5.4 Dotlak ............................................................................................... 35
6 ......................................................................... 36
7 ................................................................... 36
8 Geometrie varianta 1 .................................................................... 37
8.1 Geometrie odlitku ............................................................................. 37
8.2 ............................................................ 38
8.3 Geometrie formy .............................................................................. 39
FSI VUT 8
8.4 .................................................................................... 41
9 ..................................... 42
10 - varianta 1 ....................................................... 43
10.1 ............................................................................... 43
10.2 .................................................................... 45
10.2.1 .......................................................................... 46
10.2.2 .................................................................................. 47
A. Odlitek 1 .............................................................................. 48
B. Odlitek 2 .............................................................................. 53
10.2.3 .............................................................. 56
11 Geometrie varianta 2 .................................................................... 58
12 varianta 2 ...................................................... 58
12.1 .................................................................... 58
12.1.1 .................................................................................. 59
A. Odlitek1 ............................................................................... 59
B. Odlitek 2 .............................................................................. 64
12.1.2 .............................................................. 67
13 ................................................................................................. 68
14 Literatura .......................................................................................... 72
FSI VUT 9
1
Jen
jako
schopen pomoci s
FSI VUT 10
2
V
v malou
vs = 40-60 m/s) a k v formy neboli v
,
formy.
V
v
. z
1.
k
FSI VUT 11
Obr. 1 [2]
2.1
stroje
z
horkou komorou (hot chamber) a studenou komorou (cold chamber). Stroj s horkou
slitin s ,
jako jsou slitiny hl s Tyto ma ,
s
2.1.1 horkou komorou
horkou . Stroj
otvorem do komory k
FSI VUT 12
Obr. 2 horkou komorou [3]
2.1.2
Princip stroje se studenou komorou je nz otvorem pro a
skrz vtokovou soustavu do dutiny formy.
-
FSI VUT 13
komorou je schematicky zobrazen na 4.
Obr. 3 horkou komorou [3]
Obr. 4 [4]
FSI VUT 14
2.2
, ch. Na obr. 5 je schematicky
[5]
Obr. 5 - kokila[5]
2.2.1 stroje
slitiny, tvar a velikost ov
vypo
kSS
FkSpF
L
L
LLU....
FSI VUT 15
Obr. 6 [5]
sou v tabulce 1[5]
T
Hodnota Konstanty
stroje.
2.2.2
i.
k
-0,3, -
FSI VUT 16
Obr. 7 [5]
stroje, aby ohledem na
ustavy vede k
odlitku z
2.2.3
z
8
FSI VUT 17
Obr. 8 [5]
pore
z
tv
GS
'..'
v m hodnoty
FSI VUT 18
a pohybuje se
v
Tab. 2
proudu
,
le [3]
formy [3]
FSI VUT 19
2.2.4 emperace
Chladi s(viz. 2.1.1).
- a jeho teplota se pohybuje
v
2.2.5
z v
odlitku.
v duti
pohybuje cca od 0,05 do 0,1 mm ka 20 mm. V
obvykle
Obr. 10
FSI VUT 20
2.2.6
(valchy, vlnovce) nebo (obr 11).
Obr. 11 [6]
3 -odlitek
k forma -
V
[7]
FSI VUT 21
3.1 stup
dnotku plochy
o
x
TkAq
Kde: q [W] A plocha, p [m2] K T teplota [K] x [m]
toku. [7]
o
condthR
Tq kde
kA
xcondthR
Tento vztah ourierovu rovnici, je tok,
ourierova rovnice lze pak v [7]
FSI VUT 22
3.2
ourierovy rovnice spolu s
libovolnou teplotou na
[7]
mnoha modifikacemi a kombinacemi s Fo
3.3
v
proudu kovu bez
[7]
kde T a TS [W/m2K]
FSI VUT 23
3.4 -odlitek
el
odlitky.
f
odlitku.
rsnost V
-kov.
izolant s
,
kovu. [8]
3.5
v
chyby v k
FSI VUT 24
4
To, , ,
rovnou v
4.1
V ch
4.1.1 Zavalenina (cold lap)
v
formy s Takov
, 12 a 13
Obr. 12 Z Obr. 13 Vada v
Z z praxe je
s
k
FSI VUT 25
odlitku
v
u je 1.5 mm. s [9]
Tvar odlitku
m faktorem mnoha m na
[9]:
- -
- - (obr. 14) -
zvoleno - v
Obr. 14
na odlitku s
, , dutiny, : ,
kg pohybuje v 50 100 msec.
se zj [9]
FSI VUT 26
TTT
SZTTKt
df
fi.)(
.
kde: K = konstanta Ti = teplota kovu v Tf Td = teplota kokily formy procent
v v tabulce 2.1 v kapitole 2.2.2.
Tab. 3 O [3]
Tab. 4 3]
, kdy rychlost v
fl
FSI VUT 27
: o
, [9]
2
oje a kvalitu konstrukce formy z a
[6]
Obr. 15 P 2 diagramu []
Teplota formy
t
: [9]
- - - Doba cyklu
FSI VUT 28
odvodu tepla z , m
odlitku.
Teplota kovu
:
teplot v [9]
4.1.2 lamination)
spoj vznikne v
Obr. 16 je
FSI VUT 29
16 ukazuje situaci proudy kovu 1 a 2 dotekly do
3 m proudem proudy 1 a 2,
Tento
17).
Obr. 17
V zvyt , 18. Je proto nutn
ce
Obr. 18
FSI VUT 30
4.1.3
v odlitku
0]
Obr. 19
4.1.4
Porezita sou y
dutiny formy, ale tak
chladi [11]
kte
-
. [11]
FSI VUT 31
. Obr 20 m za , kdy je vzduch z dutiny
Obr. 20 [2]
, , v ,
uzav
Obr. 21 [12]
zase Ten
komory.
Obr. 22 [12]
FSI VUT 32
5
pozorovat pod
-Group. Tento program
, jsou:
- - - - - - Dotlak
Program Final Element Method),
s
5.1
ch ch ro et
formou a odlitkem tak i mezi formou a
23.
FSI VUT 33
Obr. 23
5.2
odlitku. Jsme-
procesu. je , z jednou
, Simulaci rychlosti
kovu v z
Obr. 24
FSI VUT 34
5.3
Jednou z v
vtoku a
Obr. 25 a) b) c)
FSI VUT 35
5.4 Dotlak
odlitku v V
v 26.
Obr. 26
FSI VUT 36
6
(varianta1). Pro eliminaci
, respektive (varianta2)
software ProCAST.
7
,
,
27 a 28.
Obr. 27
Obr. 28
FSI VUT 68
13
o je difuz br. 45)
avaleninu. V
z 49)
ou Proto byl ,
,
tak 63 a 64
druhou.
rychlostech mezi variantou 1 a 2
FSI VUT 69
Obr. 63 Odlitek varianta 1 s
Obr. 64 Odlitek varianta 2
FSI VUT 70
obou p plot u obo
65.
FSI VUT 71
respe , .
K a to , .
dosti komplikovan .
FSI VUT 72
14 Literatura
[1] : PAM - CAST/Simulor - -9, Brno 1997,
str.346-348 [2] URL: http://www.mueller-weingarten.de [3] HERMAN, A.:
http://u12123.fsid.cvut.cz/?udaj=predmet&id=C36010 [4] KALPAKIAN, Serope SCHMID S. R.: Manufacturing
engineering and technology 5th edition, Pearson Education, Inc., 2006
[5] HERMAN, A.:
na internetu: http://u12123.fsid.cvut.cz/podklady/MPL/konstrukce_forem.pdf
[6] Barbora
internetu: http://u12123.fsid.cvut.cz/?udaj=predmet&id=C36010 [7] HATTEL, Jesper: Fundamentals of numerical modelling
of casting processes, Polyteknisk Forlag, 2005 [8] FREDERIKSSON Hasse - AKERLIND Ulla: Materials processing
during casting, John Wiley & sons, Ltd, 2006 [9] WALKINGTON, W. G.: Die casting defects, Illinois: North
American Die Casting Association, 1997 [10] KUZMA [11] K Konstrukce forem pro odlitky
. 2007 2-3 /, s. 81
[12] HONG, Jun Ho: Investigation on the flow pattern in the shot
sleeve of the cold chamber HPDC process, world foundry congress 06, Casting the future