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CALCULATOR MODULE : ASME B31.3 Process Piping Thermal Expansion ±
Calculate ASME B31.3 thermal expansion from temperature (ASME B31.3 Table C-2). Table C-2 provides thermal expansion strain data (mm/m) from 20 degrees C base temperature. The expansion data is used to calculate - thermal expansion strain from 20 degrees C to the design temperature
- thermal expansion strain from the design base temperature to the design temperature
- thermal expansion length from the design base temperature to the design temperature
- thermal expansion coefficient at the design temperature
- The average thermal expansion coefficient from the design base temperature to the design temperature
Use the Data Plot option to plot thermal expansion versus temperature for the selected material. Use the Data Table option to display the data table in the popup window. Use the Result Table option to display a table of expansion coefficient, expansion strain and expansion length versus material type. Strain (ε) has units meter per meter [m/m]. The expansion strain data uses units of milli meter per meter [mm/m] or [mε] milli strain. Change units on the setup page. Refer to the help pages for notes on the data tables. Use the workbook ASME B31.3 data tables to look up thermal expansion data. Reference : ANSI/ASME B31.3 : Process Piping (2018) Change Module : Related Modules : |
CALCULATOR MODULE : ASME B31.1 Power Piping Thermal Expansion ±
Calculate ASME B31.1 power piping thermal expansion from temperature (ASME B31.1 Table C-2). Table C-2 provides thermal expansion strain data (mm/m) from 20 degrees C base temperature. The expansion data is used to calculate - thermal expansion strain from 20 degrees C to the design temperature
- thermal expansion strain from the design base temperature to the design temperature
- thermal expansion length from the design base temperature to the design temperature
- thermal expansion coefficient at the design temperature
- The average thermal expansion coefficient from the design base temperature to the design temperature
Use the data plot option to plot thermal expansion versus temperature for the selected material. Use the Data Table option to display the data table in the popup window. Use the Result Table option to display a table of expansion coefficient, expansion strain and expansion length versus material type. Strain (ε) has units meter per meter [m/m]. The expansion strain data uses units of milli meter per meter [mm/m] or [mε] milli strain. Change input and output units on the setup page. Refer to the help pages for notes on the data table (click the resources button on the data bar). Use the workbook ASME B31.1 data tables to look up expansion strain data. Reference : ANSI/ASME B31.1 : Power Piping (2014) Change Module : Related Modules : |
CALCULATOR MODULE : ASME B31.5 Refrigeration Piping Thermal Expansion ±
Calculate ASME B31.5 refrigeration piping thermal expansion from table 519.3.1 (SI units). For temperatures outside the data range, thermal expansion is extrapolated with constant slope from the end points. thermal expansion from 21 degrees C base temperature to the design temperature is interpolated from the table. The calculations include : thermal expansion from the design base temperature to the design temperature, the expansion coefficient at the design temperature, and the mean expansion coefficient and elongation from the design base temperature to the design temperature. Use the data plot option to plot thermal expansion versus temperature for the selected material. Use the Data Table option to display the data table in the popup window. Change units on the setup page. Use the workbook ASME B31.5 data tables to look up thermal expansion data. Reference : ANSI/ASME B31.5 : Refrigeration Piping And Heat Transfer Components (2013) Change Module : Related Modules : |
CALCULATOR MODULE : Hot Pipeline End Expansion ±
Calculate high temperature pipeline end expansion and anchor points. Pipeline expansion is caused by the change in pressure and temperature from the installation conditions. The external temperature and pressure are assummed to be constant. The anchor points are the locations at both ends where the friction force is equal to the restrained axial load. Short pipelines have a virtual anchor point at the midway position. Change Module : |
CALCULATOR MODULE : ASME B31.5 Refrigeration Piping Flexibility And Stress Factor ±
Calculate ASME B31.5 flexibility - stress intensity factors
- allowable cyclic stress
- stress range factor
- expansion stress
Refer to the figures for symbols. Reference : ANSI/ASME B31.5 : Refrigeration Piping Change Module : Related Modules : |
CALCULATOR MODULE : Velocity Of Sound In A Solid ±
Calculate the velocity of sound in a solid. The speed of sound in a solid is calculated from the solid density and bulk modulus. `a = √(K / ρ) ` where : a = speed of sound
K = bulk modulus
ρ = density The bulk modulus can be calculated from the elastic modulus and Poisson's ratio, or from the speed of sound in the solid. `K = a^2 ρ `
`K = E / (3 (1 - 2 γ )) ` where : E = elastic modulus
γ = Poisson ratio Change Module : |
DATA MODULE : Fluid Thermal Expansion Coefficient ( Open In Popup Workbook ) ±
Fluid thermal expansion coefficient data. Thermal expansion is commonly measured as either volumetric expansion (relative change of volume dV/(V.dT)), or as linear expansion (relative change of length (dL/(L.dT)). The volumetric expansion is approximately three times the linear expansion. Related Modules : |
DATA MODULE : Material Thermal Expansion Coefficient ( Open In Popup Workbook ) ±
Material thermal expansion coefficient data for materials due to changes in temperature. Related Modules : |
DATA MODULE : ASME B31.1 Power Piping Thermal Expansion ( Open In Popup Workbook ) ±
Thermal expansion coefficient data for ASME B31.1 power piping (Table B SI values). Thermal expansion (mm/m) is measured from a base temperature of 68 F or 20 C. Use the ASME B31.1 thermal expansion calculators (see link below) to interpolate thermal expansion data values, calculate thermal expansion coefficient, or calculate thermal expansion from a different base temperature. Reference : ANSI/ASME B31.1 : Power Piping Change Module : Related Modules : |
DATA MODULE : ASME B31.3 Process Piping Thermal Expansion ( Open In Popup Workbook ) ±
Thermal expansion coefficient data for ASME B31.3 process piping (Table C SI values). Thermal expansion (mm/m) is measured from a base temperature of 68 F or 20 C. Use the ASME B31.3 thermal expansion calculators (see link below) to interpolate thermal expansion data values, calculate thermal expansion coefficient, or calculate thermal expansion from a different base temperature. Reference : ANSI/ASME B31.3 : Process Piping (2018) Change Module : Related Modules : |
DATA MODULE : ASME B31.5 Refrigeration Piping Thermal Expansion ( Open In Popup Workbook ) ±
Thermal expansion coefficient data for ASME B31.5 refrigeration piping (Table 519.3.3 SI values and US values). Thermal expansion (in/ft or mm/m) is measured from a base temperature of 70 F or 20 C. Use the ASME B31.5 thermal expansion calculators (see link below) to interpolate thermal expansion data values, calculate thermal expansion coefficient, or calculate thermal expansion from a different base temperature. Reference : ANSI/ASME B31.5 : Refrigeration Piping And Heat Transfer Components Change Module : Related Modules : |