
Functions
7.8 Setting Thermal Coefficient and Modulus of Elasticity
FUH1010 IP65 NEMA 4X Precision Volume
112
Operating Instructions, 01/2013, A5E32122003-AA
The default value for each of these new parameters is 0.0. A value of zero effectively
disables the pressure and temperature pipe volume compensation routine. When entering a
value for the thermal expansion coefficient and modulus of elasticity, keep in mind that the
numeric entry already includes an exponent multiplier. For the Thermal Expansion
Coefficient the multiplier is 10
-6
and for the Modulus of Elasticity the multiplier is 10
6
.
Typical values for each parameter are shown below:
Pipe Material
Thermal Expansion
Modulus of Elasticity
Mild Carbon Steel
6.20 x 10
-6
F
-1
(11.16 x 10
-6
C
-1
)
30 x 10
6
psi
2.07 x 10
6
bar
304 Stainless
9.60 x 10
-6
F
-1
(17.28 x 10
-6
C
-1
)
28 x 10
6
psi
1.93 x 10
6
bar
316 Stainless
8.83 x 10
-6
F
-1
(15.89 x 10
-6
C
-1
)
28 x 10
6
psi
1.93 x 10
6
bar
Note
Do not enter exponents of above values.
[ThermExp Coef 1/F]
Use this menu cell to set the Thermal Expansion Coefficient.
Entering the Thermal Expansion Coefficient value:
1.
In the [Pipe Data] menu, scroll down to highlight [ThermExp Coef 1/F].
2.
To enable numeric entry press <Right Arrow>.
3.
Use the number keys to type the Thermal Coefficient value.
4.
To register the data press <ENTER>.
Mod of Elast PSI
Use this menu cell to set the Modular Elasticity in PSI.
Entering the Modulus of Elasticity value:
1.
In the [Pipe Data] menu, scroll down to highlight [Mod of Elast PSI].
2.
To enable numeric entry press <Right Arrow>.
3.
Use the number keys to type the Modular Elasticity PSI value.
4.
To register the data press <ENTER>.
Summary of Contents for SITRANS FUH1010
Page 194: ......
Page 195: ......
Page 196: ......
Page 197: ......
Page 198: ......
Page 199: ......
Page 200: ......
Page 201: ......
Page 202: ......
Page 203: ......
Page 204: ......
Page 205: ......
Page 206: ......
Page 207: ......
Page 208: ......
Page 209: ......
Page 210: ......
Page 211: ......
Page 212: ......
Page 213: ......
Page 214: ......
Page 215: ......
Page 216: ......
Page 217: ......
Page 218: ......
Page 219: ......
Page 220: ......
Page 221: ......
Page 222: ......
Page 223: ......
Page 224: ......
Page 225: ......
Page 226: ......
Page 227: ......
Page 228: ......
Page 229: ......
Page 230: ......
Page 231: ...21614 C 1011NFPS 7 ...
Page 232: ...1011NFPS 7 C 21614 ...
Page 233: ...1011NFPS 7 C 21614 ...
Page 234: ...21614 C 1011NFPS 7 ...
Page 235: ......
Page 236: ......
Page 237: ......
Page 238: ......
Page 239: ......
Page 240: ...21614 C ...
Page 241: ......
Page 242: ......
Page 243: ...1012TN 7 INSTALLATION DRAWING 1010 SERIES TRANSDUCERS AND MOUNTING TRACKS 21614 C ...
Page 244: ...1012TN 7 INSTALLATION DRAWING 1010 SERIES TRANSDUCERS AND MOUNTING TRACKS 21614 C ...
Page 245: ...1012TNH 7 INSTALLATION DRAWING 1010 SERIES TRANSDUCERS AND MOUNTING TRACKS 21614 C ...
Page 246: ...1012TNH 7 INSTALLATION DRAWING 1010 SERIES TRANSDUCERS AND MOUNTING TRACKS 21614 C ...
Page 247: ......
Page 248: ......
Page 249: ......
Page 250: ......
Page 251: ......
Page 263: ...Index FUH1010 IP65 NEMA 4X Precision Volume 202 Operating Instructions 01 2013 A5E32122003 AA ...