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Authors: PHYSICS; CALORIMETERS; ENTHALPY; HEAT TRANSFER; LITHIUM; MEASURED VALUES; STAINLESS STEELS; TEMPERATURE; THERMODYNAMICS; ZIRCONIUM Publication Date: Tue Dec 30 00:00:00 EST 1952 Research Org.: Oak Ridge National Lab. OSTI Identifier: 4392113 Report Number(s): ORNL-1342 NSA Number: NSA-07-001695 Resource Type: Technical Report Resource Relation: Other Information: Orig. Receipt Date: 31-DEC-53 Country of Publication: United States Language: English Subject:
Redmond, R. F., and Lones, J.. ENTHALPIES AND HEAT CAPACITIES OF STAINLESS STEEL (316), ZIRCONIUM, AND LITHIUM AT ELEVATED TEMPERATURES. United States: N. p., 1952.
Web. doi:10.2172/4392113. Redmond, R. F., & Lones, J.. ENTHALPIES AND HEAT CAPACITIES OF STAINLESS STEEL (316), ZIRCONIUM, AND LITHIUM AT ELEVATED TEMPERATURES. United States. https://doi.org/10.2172/4392113
Redmond, R. F., and Lones, J.. 1952.
"ENTHALPIES AND HEAT CAPACITIES OF STAINLESS STEEL (316), ZIRCONIUM, AND LITHIUM AT ELEVATED TEMPERATURES". United States. https://doi.org/10.2172/4392113. https://www.osti.gov/servlets/purl/4392113. @article{osti_4392113, title = {ENTHALPIES AND HEAT CAPACITIES OF STAINLESS STEEL (316), ZIRCONIUM, AND LITHIUM AT ELEVATED TEMPERATURES}, author = {Redmond, R. F. and Lones, J.}, abstractNote = {}, doi = {10.2172/4392113}, url = {https://www.osti.gov/biblio/4392113}, journal = {},number = , volume = , place = {United States}, year = {Tue Dec 30 00:00:00 EST 1952}, month = {Tue Dec 30 00:00:00 EST 1952} }
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Stainless steel AISI 310 - thermal diffusivity, specific heat capacity, density and thermal conductivity vs temperature: Thermal diffusivitySpecific heat capacityDensityThermal conductivity
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The specific heat of metals and metalloids (semimetals) are given in the table below.
See also tabulated values for gases, food and foodstuff, common liquids and fluids, common solids and other common substances as well as values of molar specific heat for common organic substances and inorganic substances. Metalloids - also known as semimetals - are elements containing properties similar and midway between metals and nonmetals.
For conversion of units, use the Specific heat online unit converter. See also tabulated values for Gases, Food and foodstuff, Common liquids and fluids, Common solids and other Common substances as well as values of molar specific heat for common organic substances and inorganic substances. Heating EnergyThe energy required to heat a product can be calculated as q = cp m dt (1) where q = heat required (kJ) cp = specific heat (kJ/kg K, kJ/kg C°) dt = temperature difference (K, C°) Example - Heating Carbon Steel2 kg of carbon steel is heated from 20 oC to 100 oC. The specific heat of carbon steel is 0.49 kJ/kgC° and the heat required can be calculated as q = (0.49 kJ/kg oC) (2 kg) ((100 oC) - (20 oC)) = 78.4 (kJ)
The specific heat capacity of materials ranging from Water to Uranium has been listed below in alphabetical order.
Specific heat capacity tables of common materials[/caption] |