EFFECT OF NI ADDITION ON MECHANICAL AND CATALYTIC PROPERTIES OF TIAL ALLOY
TiAl alloys have several potential <br /> <br /> applications <br /> <br /> , as <br /> <br /> an <br /> <br /> alternative raw material components in <br /> <br /> turbine engines <br /> <br /> or as <br /> &...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/29216 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | TiAl alloys have several potential <br />
<br />
applications <br />
<br />
, as <br />
<br />
an <br />
<br />
alternative raw material components in <br />
<br />
turbine engines <br />
<br />
or as <br />
<br />
catalysts for the synthesis reaction of organic compounds. However, TiAl <br />
<br />
alloys as a raw material of turbine <br />
<br />
engine components have a d <br />
<br />
rawback, <br />
<br />
i.e. <br />
<br />
low ductility at <br />
<br />
room temperature and low creep resistance at high temperatures. In this final <br />
<br />
project, <br />
<br />
TiAl <br />
<br />
alloys <br />
<br />
with <br />
<br />
Ni <br />
<br />
addition have been synthesized <br />
<br />
by mechanical alloying method. <br />
<br />
M <br />
<br />
echanical <br />
<br />
properties <br />
<br />
like <br />
<br />
har <br />
<br />
dness <br />
<br />
is expected increases with t <br />
<br />
he addition o <br />
<br />
f Ni to the TiAl alloys <br />
<br />
. The <br />
<br />
synthesis of TiAl alloys is done by varying the <br />
<br />
milling <br />
<br />
time (5, 15, 30 and 50 hour <br />
<br />
s), sintering <br />
<br />
temperature (500 <br />
<br />
(rumus) <br />
<br />
C, 700 <br />
<br />
(rumus) <br />
<br />
C <br />
<br />
and 900 <br />
<br />
(rumus) <br />
<br />
C) and sintering time (2, 4 and 6 hours). <br />
<br />
T <br />
<br />
he <br />
<br />
best <br />
<br />
condition <br />
<br />
wa <br />
<br />
s obtained <br />
<br />
for <br />
<br />
50 ho <br />
<br />
urs <br />
<br />
of <br />
<br />
milling <br />
<br />
time <br />
<br />
, 900 <br />
<br />
(rumus) <br />
<br />
C <br />
<br />
of sintering temperature <br />
<br />
and 6 <br />
<br />
hours <br />
<br />
of <br />
<br />
sintering time. Addition of Ni (3, 6 and 9%) was performed after the best condition <br />
<br />
(50 <br />
<br />
hours, 900 <br />
<br />
(rumus) <br />
<br />
C for 6 hours) at the time of TiAl alloy synthesis <br />
<br />
is achieved <br />
<br />
. <br />
<br />
C <br />
<br />
haracteriz <br />
<br />
ation of <br />
<br />
the structure and morphology of alloys were carried out by <br />
<br />
PXRD and SEM <br />
<br />
- <br />
<br />
EDS <br />
<br />
analysis <br />
<br />
techniques <br />
<br />
, <br />
<br />
then <br />
<br />
hardness test <br />
<br />
using micro Vickers method <br />
<br />
and catalytic activity test <br />
<br />
were <br />
<br />
applied on alloys <br />
<br />
. PXRD <br />
<br />
results of <br />
<br />
TiAl and Ti <br />
<br />
AlNi alloys <br />
<br />
showed <br />
<br />
the highest peak appears at <br />
<br />
2θ = <br />
<br />
39 <br />
<br />
(rumus) <br />
<br />
and 2θ = 43,86 <br />
<br />
(rumus) <br />
<br />
which are appropiate with <br />
<br />
reference <br />
<br />
of alloys. The images <br />
<br />
of SEM <br />
<br />
- <br />
<br />
EDS show <br />
<br />
ed <br />
<br />
that <br />
<br />
TiAl and TiAlNi <br />
<br />
alloys <br />
<br />
have been formed <br />
<br />
with granule <br />
<br />
- <br />
<br />
like shape <br />
<br />
. Hardness <br />
<br />
testing for TiAlNi <br />
<br />
alloy <br />
<br />
showed significant <br />
<br />
increases in the value of hardness <br />
<br />
, <br />
<br />
from 194 HV to <br />
<br />
440 HV for the addition of 9% Ni. The addition of Ni to TiAl alloys also causes increased <br />
<br />
catalytic properties <br />
<br />
, <br />
<br />
especially for <br />
<br />
reaction of benzaldehyde acetalization with <br />
<br />
metanol. <br />
<br />
For the <br />
<br />
reaction at <br />
<br />
room <br />
<br />
temperature for 1 hour <br />
<br />
, <br />
<br />
b <br />
<br />
enzaldehyde <br />
<br />
was <br />
<br />
converted to acetal products <br />
<br />
by TiAl <br />
<br />
and TiAlNi alloy <br />
<br />
s <br />
<br />
with <br />
<br />
efficiencies of <br />
<br />
36% and 67% <br />
<br />
, <br />
<br />
respectivel <br />
<br />
y |
|---|