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Mg Pure Magnesium
Mg Pure Magnesium 1
Transitions, melting point mp = 650 °C [1].
2
Density (p) thermal expansion coefficient p
(solid) = 1740 kg m" [2] a = 30 x 10" K" [2]. 3
25
6
1
The density as a function of temperature is given in Figure 1 and Table 1. The density-temperature relation for liquid Mg recommended by Iida and Guthrie [3] is identical to that recommended by Watanabe et al [4] viz p ( k g . m ) ^1740 - 0.156 ( T - 2 5 ° C )
(1)
p
(2)
-3
s
( k g . m ) = 1590-0.26 ( T - 6 5 0 ° C ) -3
e
The density decrease at the melting point from the data shown in Table 1 is 3.1%. 1800 -j
1
h
200
400
3
Density, p (Kg m" )
1750
0 Figure J
3
600
Temperature (°C)
800
1000
1200
Density of liquid Mg as a function of temperature [3,4].
Heat capacity (C ) enthalpy (H -H ) p
x
25
Heat capacity and enthalpy as functions of temperature are given in Figures 2 and 3, respectively and Table 1. Dinsdale [1] reported the following values. AH* - 349 J g C (*) = 1.32Jg- K" 18
1
,
1
p
143
RECOMMENDED VALUES OF THERMOPHYSICAL PROPERTIES FOR SELECTED COMMERCIAL ALLOYS
p
1
1
:Capacity, C (Jg* K" )
1.35
»
1.05 200
1800
^A>
800
1000
1200
1
1
200
400
1
1
f-
L
1400 1200
3
*
600 Temperature (°C)
Heat capacity of pure Mg as a function of temperature.
Figure 2
1600
400
in
1000
CO JO «•"•» c LU
Figure 3 4
600 800 Temperature (°C)
1000
1200
Enthalpy (H -H ) of pure Mg as a function of temperature. x
25
Thermal conductivity (X) thermal diffusivity (a)
Thermal conductivity values have been reported by Touloukian et al [5]. These values are given in Table 1 and have been converted to thermal diffusivity values using the recommended values of C and density values (Table 1). Mills et al [6] recommended the following values: p
X™ = M S W m ^ K " : X? = 79Wm" K" 1
1
X = 79+7xl0" (T-650)Wm" K" 2
1
{
These are shown in Figure 4.
144
1
1
(3)
Mg
170 a
PURE M A G N E S I U M
h
Thermal Conductivity, X
160 --
70 -( 0
Figure 4
5
1
1
200
400
1
1
600 800 Temperature (°C)
1
1000
V 1200
Thermal conductivity of Mg as a function of temperature [6].
Viscosity (r|)
Lihl et al [7] have reported the viscosity measurements for pure Mg shown in Figure 5, with rf = 1.25 mPas.
Viscosity,N (mPas)
1.30 +
Temperature (°C)
Figure 5
6
Viscosity of liquid magnesium as a function of temperature [7].
Surface tension (y)
Keene [8] reviewed the measurements of surface tension reported for pure Mg and recommended the following relation (shown in Figure 6). yOnNm" ) = 577 - 0.26 (T - 650 °C) 1
145
(4)
1
Surface Tension, y (mN m" )
RECOMMENDED VALUES OF THERMOPHYSICAL PROPERTIES FOR SELECTED COMMERCIAL ALLOYS
600
Figure 6
7
650
700
750
800
850
Temperature (°C)
900
950
1000
1050
Surface tension of pure Mg as a function of temperature.
Emissivity
Shiraishi [9] reported values of z at 0.65 pm at 25 °C of 0.74 but with s decreasing rapidly with decreasing wavelength. Touloukian [5] also reported a hemispherical total emissivity value of 0.12 for a polished surface at temperatures between 70 and 200 °C. x
x
References 1.
Dinsdale, A T: SGTE data for pure elements. CALPHAD 15 (1991) 317/425.
2.
Touloukian, Y S: Thermophysical properties of high temperature solid Volume 1, Elements, publ. McMillan, New York (1967).
3.
Iida, T and Guthrie, R I L: The physical properties of liquid metals, Oxford Science Press, Oxford (1988).
4.
Watanabe, S; Ogino, K and Tsu, Y: Handbook of physico-chemical properties at high temperatures, edited Y Kawai and Y Shiraishi, publ. ISIJ, Tokyo (1988), Chapter 1.
5.
Touloukian, Y S; Powell, R W; Ho, C Y and Klemens P G: Thermophysicalproperties matter: Volume 1 Thermal conductivity, publ. IFI/Plenum, New York (1970).
6.
Mills, K C; Monaghan, B J and Keene, B J: Intl. Materials Review 41 (1996), 209-242.
7.
Lihl, P; Nachigall, E and Schwaiger, A: Z Metallic. 59 (1968) 213.
8.
Keene, B J: Intl. Mater. Reviews 38 (1993) 157/192.
9.
Shiraishi, Y: as in ref 1, Chapter 10.
146
materials:
of
Mg
PURE M A G N E S I U M
Table 1 Recommended values for thermophysical properties of pure Mg T
°C 25 100 200 300 400 500 600 650 650 700 800 900 1000 a
a
a
(H -H
PT
T
kgm1740 1728 1713 1697 1681 1666 1650 1642 1590 1577 1551 1525 1499
3
Jg" K" 1.025 1.06 1.11 1.16 1.19 1.24 1.30 1.32 1.32 1.32 1.32 1.32 1.32 1
1
2 5
Jg 0 78 187 300 418 540 667 733 1081 1213 1345 1477 1609 1
)
10" a m s 87 84 80 76 74 71 68 67 37 39 43.5 48 52
= melting point
147
X Win K 156 154 152 150 148 146 145 145 79 82 89 96 103 1
1
mPas
1.25 1.12 0.91 0.80
-
y
mNm
577 564 538 512 486
1
0.65 urn
0.59 0.59 0.59 0.59
Transitions, melting point mp = 650 °C [1].
2
Density (p) thermal expansion coefficient p
(solid) = 1740 kg m" [2] a = 30 x 10" K" [2]. 3
25
6
1
The density as a function of temperature is given in Figure 1 and Table 1. The density-temperature relation for liquid Mg recommended by Iida and Guthrie [3] is identical to that recommended by Watanabe et al [4] viz p ( k g . m ) ^1740 - 0.156 ( T - 2 5 ° C )
(1)
p
(2)
-3
s
( k g . m ) = 1590-0.26 ( T - 6 5 0 ° C ) -3
e
The density decrease at the melting point from the data shown in Table 1 is 3.1%. 1800 -j
1
h
200
400
3
Density, p (Kg m" )
1750
0 Figure J
3
600
Temperature (°C)
800
1000
1200
Density of liquid Mg as a function of temperature [3,4].
Heat capacity (C ) enthalpy (H -H ) p
x
25
Heat capacity and enthalpy as functions of temperature are given in Figures 2 and 3, respectively and Table 1. Dinsdale [1] reported the following values. AH* - 349 J g C (*) = 1.32Jg- K" 18
1
,
1
p
143
RECOMMENDED VALUES OF THERMOPHYSICAL PROPERTIES FOR SELECTED COMMERCIAL ALLOYS
p
1
1
:Capacity, C (Jg* K" )
1.35
»
1.05 200
1800
^A>
800
1000
1200
1
1
200
400
1
1
f-
L
1400 1200
3
*
600 Temperature (°C)
Heat capacity of pure Mg as a function of temperature.
Figure 2
1600
400
in
1000
CO JO «•"•» c LU
Figure 3 4
600 800 Temperature (°C)
1000
1200
Enthalpy (H -H ) of pure Mg as a function of temperature. x
25
Thermal conductivity (X) thermal diffusivity (a)
Thermal conductivity values have been reported by Touloukian et al [5]. These values are given in Table 1 and have been converted to thermal diffusivity values using the recommended values of C and density values (Table 1). Mills et al [6] recommended the following values: p
X™ = M S W m ^ K " : X? = 79Wm" K" 1
1
X = 79+7xl0" (T-650)Wm" K" 2
1
{
These are shown in Figure 4.
144
1
1
(3)
Mg
170 a
PURE M A G N E S I U M
h
Thermal Conductivity, X
160 --
70 -( 0
Figure 4
5
1
1
200
400
1
1
600 800 Temperature (°C)
1
1000
V 1200
Thermal conductivity of Mg as a function of temperature [6].
Viscosity (r|)
Lihl et al [7] have reported the viscosity measurements for pure Mg shown in Figure 5, with rf = 1.25 mPas.
Viscosity,N (mPas)
1.30 +
Temperature (°C)
Figure 5
6
Viscosity of liquid magnesium as a function of temperature [7].
Surface tension (y)
Keene [8] reviewed the measurements of surface tension reported for pure Mg and recommended the following relation (shown in Figure 6). yOnNm" ) = 577 - 0.26 (T - 650 °C) 1
145
(4)
1
Surface Tension, y (mN m" )
RECOMMENDED VALUES OF THERMOPHYSICAL PROPERTIES FOR SELECTED COMMERCIAL ALLOYS
600
Figure 6
7
650
700
750
800
850
Temperature (°C)
900
950
1000
1050
Surface tension of pure Mg as a function of temperature.
Emissivity
Shiraishi [9] reported values of z at 0.65 pm at 25 °C of 0.74 but with s decreasing rapidly with decreasing wavelength. Touloukian [5] also reported a hemispherical total emissivity value of 0.12 for a polished surface at temperatures between 70 and 200 °C. x
x
References 1.
Dinsdale, A T: SGTE data for pure elements. CALPHAD 15 (1991) 317/425.
2.
Touloukian, Y S: Thermophysical properties of high temperature solid Volume 1, Elements, publ. McMillan, New York (1967).
3.
Iida, T and Guthrie, R I L: The physical properties of liquid metals, Oxford Science Press, Oxford (1988).
4.
Watanabe, S; Ogino, K and Tsu, Y: Handbook of physico-chemical properties at high temperatures, edited Y Kawai and Y Shiraishi, publ. ISIJ, Tokyo (1988), Chapter 1.
5.
Touloukian, Y S; Powell, R W; Ho, C Y and Klemens P G: Thermophysicalproperties matter: Volume 1 Thermal conductivity, publ. IFI/Plenum, New York (1970).
6.
Mills, K C; Monaghan, B J and Keene, B J: Intl. Materials Review 41 (1996), 209-242.
7.
Lihl, P; Nachigall, E and Schwaiger, A: Z Metallic. 59 (1968) 213.
8.
Keene, B J: Intl. Mater. Reviews 38 (1993) 157/192.
9.
Shiraishi, Y: as in ref 1, Chapter 10.
146
materials:
of
Mg
PURE M A G N E S I U M
Table 1 Recommended values for thermophysical properties of pure Mg T
°C 25 100 200 300 400 500 600 650 650 700 800 900 1000 a
a
a
(H -H
PT
T
kgm1740 1728 1713 1697 1681 1666 1650 1642 1590 1577 1551 1525 1499
3
Jg" K" 1.025 1.06 1.11 1.16 1.19 1.24 1.30 1.32 1.32 1.32 1.32 1.32 1.32 1
1
2 5
Jg 0 78 187 300 418 540 667 733 1081 1213 1345 1477 1609 1
)
10" a m s 87 84 80 76 74 71 68 67 37 39 43.5 48 52
= melting point
147
X Win K 156 154 152 150 148 146 145 145 79 82 89 96 103 1
1
mPas
1.25 1.12 0.91 0.80
-
y
mNm
577 564 538 512 486
1
0.65 urn
0.59 0.59 0.59 0.59