Biomedical Engineering Reference
In-Depth Information
Choi et al.
(2001)
MWCNT (+ dispersant)-
polyalphaolefin
0.04-1.02
1.02-2.57
Two-step
method
Transient hot-
wire method
—
Eastman et al.
(2001)
Cu (old)-ethylene
glycol
0.10-0.56
1.016-1.10
One-step
physical
method
Transient hot-
wire method
—
Cu (fresh)-ethylene
glycol
0.11-0.56
1.031-1.14
Cu (+ thioglycolic acid)-
ethylene glycol
0.01-0.28
1.002-1.41
One-step
physical
method
One-step physical
method
Xie et al.
(2002a)
SiC-water
0.78-4.18
1.03-1.17
Two-step
method
Transient hot-
wire method
—
SiC-water
1.00-4.00
1.06-1.24
SiC-ethylene glycol
0.89-3.50
1.04-1.13
SiC-ethylene glycol
1.00-4.00
1.06-1.23
Xie et al.
(2002b)
Al
2
O
3
-water
1.80-5.00
1.07-1.21
Two-step
method
Transient hot-
wire method
Solid crystalline
phase effect,
morphology
effect, pH value
effect, base fluid
effect
Al
2
O
3
-ethylene glycol
1.80-5.00
1.06-1.17
Al
2
O
3
-ethylene glycol
1.80-5.00
1.06-1.18
Al
2
O
3
-ethylene glycol
1.80-5.00
1.10-1.30
Al
2
O
3
-ethylene glycol
1.80-5.00
1.08-1.25
Al
2
O
3
-pump oil
5.00
1.39
Xie et al.
(2002c)
Al
2
O
3
-water
5.00
1.23
Two-step
method
Hot-wire method Base fluid effect
Al
2
O
3
-ethylene glycol
5.00
1.29
Al
2
O
3
-pump oil
5.00
1.38
Al
2
O
3
-glycerol
5.00
1.27
Das et al.
(2003)
Al
2
O
3
-water (21
8
C)
1.00-4.00
1.02-1.09
Two-step
method
Temperature
oscillation
technique
Temperature
effect
Al
2
O
3
-water (36
8
C)
1.00-4.00
1.07-1.16
Al
2
O
3
-water (51
8
C)
1.00-4.00
1.10-1.24
CuO-water (21
8
C)
1.00-4.00
1.07-1.14
CuO-water (36
8
C)
1.00-4.00
1.22-1.26
CuO-water (51
8
C)
1.00-4.00
1.29-1.36
