ster; BASIC BUTYLATED METHACRYLATE COPOLYMER IMP. A (EP): BUTYL METHACRYLATE; Methacrylic acid butyl ester; 2-Methyl-tetradecansaeure; N-BUTYL METHACRYLATE (MONOMER); BUTYL METHACRYLATE (N-BMA); a15:0 fatty acid; 2-methylmyristic acid; Butyl methacrylate - n-Butyl_Methacrylate,Butyl-2-Methyl-2-Propenoate,Methacrylic_Acid,Butyl_Ester,n-B-MethaAcrylate;BUTYLMETHACRYLATE; BUTYL METHACRYLATE (100 ML [Click to Calculate]
sort£ºEster
-propoxy)-propoxy]-propan-1-ol; 2-[2-(2-hydroxypropoxy)propoxy]-1-propanol; tripropylene glycol; Propanol,((1-methyl-1,2-ethanediyl)bis(oxy))bis; ((Methylethylene)bis(oxy))dipropanol; EINECS 246-466-0; Tripropylene glycolmixture of isomers; Tripropylene glycol; 2-[2-(2-hydroxypropoxy)propoxy]propan-1-ol - Tripropylene_Glycol,TriPropyleneGlycol,2-(2-(2-Hydroxyproproxy)propoxy-1-Propanol,2-(2-(2-Hy [Click to Calculate]
sort£ºAlcohol
R401B - -R401B - -R401B - -R401B - -R401B - -R401B - -R401B--R401B
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R401C - -R401C - -R401C - -R401C - -R401C - -R401C - -R401C--R401C
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R402B - -R402B - -R402B - -R402B - -R402B - -R402B - -R402B--R402B
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R404A - -R404A - -R404A - -R404A - -R404A - -R404A - -R404A--R404A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R406A - -R406A - -R406A - -R406A - -R406A - -R406A - -R406A--R406A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R407A - -R407A - -R407A - -R407A - -R407A - -R407A - -R407A--R407A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R407C - -R407C - -R407C - -R407C - -R407C - -R407C - -R407C--R407C
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R407D - -R407D - -R407D - -R407D - -R407D - -R407D - -R407D--R407D
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R408A - -R408A - -R408A - -R408A - -R408A - -R408A - -R408A--R408A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R407E - -R407E - -R407E - -R407E - -R407E - -R407E - -R407E--R407E
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R409A - -R409A - -R409A - -R409A - -R409A - -R409A - -R409A--R409A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R410A - -R410A - -R410A - -R410A - -R410A - -R410A - -R410A--R410A
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
R409B - -R409B - -R409B - -R409B - -R409B - -R409B - -R409B--R409B
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
Triple Point Temperature - Normal Boiling Point - Critical Temperature - Critical Pressure- Saturated Vapor Pressure - Critical Density - Critical Compressibility Factor - Acentric Factor - Dipole Moment - Specific Volume - Specific Enthalpy - Specific Entropy - Internal Energy - Latent Heat of Vaporization - Specific Heat Cp - Cv - Quality - Helmholtz Energy - Gibbs Free Energy - Fugacity - Fugacity Coefficient - Joule-Thomson Coefficient - Speed of Sound - Virial Coefficient - Thermal Conductivity - Thermal Diffusivity - Viscosity - Surface Tension - Prandtl Number - Relative Dielectric Constant [Click to Calculate]
sort£ºRefrigerant(mixture)
