| |
|
|
| |
|
|
| |
|
|
|
 |
 |
| |
In casting applications, the control of grain size is very critical
in maintaining the consistency of
the supreme productivity and quality as well as in reducing
the costs. The controlled addition of grain refiners (AlTiB)
to molten Aluminum releases nucleants that promote uniform,
fine grain structures throughout the cast alloy, thus avoiding
formation of columnar crystals. Casting speed can be increased
and improved feeding characteristics achieved.
|
|
|
| |
 |
| |
|
| |
|
1. Consistency of bright color &
form
2. Reduced ingot cracking
3. Better homogeneity
4. Reduced porosity
5. Improved feeding
6. Extended furnace refractory life & improved productivity
7. Improved mechanical properties
8. Reduced costs
9. Enhanced response the subsequent heat treatment |
|
|
 |
| |
* Different composition(%) of alloys available upon customer¡¯s
request.
(Please click composition for the further information)
Element |
Composition(%) |
Color
Code |
| Aluminum Titanium |
AlTi6% |
Red |
| Aluminum Titanium-Boron |
AlTi3%B1% |
Green |
Brown |
| Aluminum Titanium-Boron |
AlTi5%B1% |
Green |
| Aluminum Titanium-Boron |
AlTi5%B0.6% |
Green |
Yellow |
| Aluminum Titanium-Boron |
AlTi5%B0.2% |
Green |
Black |
| Aluminum Titanium-Boron |
AlTi6%B0.2% |
Green |
Orange |
| Aluminum Titanium-Boron |
AlTi10%B1% |
Green |
White |
| Aluminum Titanium-Boron |
AlTi10%B0.4% |
Green |
Dark
Blue |
| Aluminum Titanium |
AlTi10%
|
Red |
Black |
|
|
|
 |
| |
-
Test Report -
A. Fine grain size means more consistent
cast structure.
SLM maximize the particle¡¯s quantities
per same % but also minimize the TiAl3
particle size.
B. Diminish about 40% of chill layer¡¯s thickness
as compared with previous materials,
whereby provide improved yield.
C. Well-organized product could be induced from the
numerous TiAl3 per
unit area,
by which it should be regarded very
suitable for thin foil,
glossy items & requiring especially
mechanical property products.
|
|
|
|
 |
| |
Grain Refiner : 5Ti-1B , 3Ti-1B , 6Ti-0.2B¡¦.
Criterion |
SLM |
Waffle
|
Remarks
|
Composition |
Al + 5Ti + 1B base
|
Al+5Ti + a base + (minor
B)
|
Different
technical
background |
Outlook
|
Al natural color +
Natural + brightness
w/partly grey |
Al natural color
w/partly grey |
 ¡¯s
shiny which makes
product anti-corrosive |
Solubility |
Floating sometime
on surface &
Completely melt down
|
Sink down to bottom
of furnace right
after putting in |
¡¯s
makes grain
more uniform + finer |
Chemical
Analysis |
Mostly ¡°TiAl3
|
¡±Mixture of ¡°TiAl3¡±
¡°TiB2¡± ¡°Al*
(Al-Ti)B2¡±
|
TiAl3
is main factor
for grain refiner |
Anti-Corrosion |
Good
|
Weak
|
Tested with
nitric acid
/ hydrochliric acid |
Precipitation
on
furnace bottom
|
None |
Exist
|
Reaction with
Si or Mg
makes precipitation |
|
|
|
 |
| |
Grain Refiner : 5Ti-1B , 3Ti-1B , 6Ti-0.2B¡¦.
Criterion |
|
Waffle |
Remarks |
Mechanical/Physical
Characteristics
|
Improve harness,
elongation
|
Improve hardness |
Theoriotically
compound
doesn¡¯t work directly for
elongation but on ¡°MG+Si¡± |
Brightness
|
Excellent
|
Less bright |
Decisive by
eye |
Anodize |
Color |
Uniform Bright |
Inferior |
Decisive by
eye |
Energy
|
Saving
|
Non Efficient
|
|
Cost |
Inexpensive
|
Expensive
|
$10,000 saving
per annum
(Yield 500 ton) |
|
|
|
 |
| |
Grain Refiner : 5Ti-1B , 3Ti-1B , 6Ti-0.2B¡¦.
Criterion |
|
Waffle |
Remarks |
H
E
A
T
M
A
C
H
I
N
I
N
G
|
Cell
by eye
|
abt. 220¥ì |
Abt.200 ¥ì
|
¡¯s
cell less finer
by eye but it¡¯s better
when heat machining |
Cell
by
Micro |
Well developed around
DAS
(dendrite arm space) |
Less developed |
Cell
by
Microscope
|
Uniform grain
No cluster
|
Non-uniform ,
cluster exist
|
Uniform grain
is good
for anodizing, Cluster is
no good for machining |
Workability |
5-6 more billets rolled
Per hour, better
Welding Line/less graze
|
Low productivity
High graze |
¡¯s
has better
rolling speed+ finer
surface, Drop the
Temperature to get
Better workability |
Pressure |
10kgs decreased |
10 kgs increased |
Life
of Dies |
Less cushion+ breakage
with lowered pressure |
More cushion
+ die line |
Cushion,die
line taken
place by clusters |
|
|
|
