Macromolecular condensed state involves crystalline state and non-crystalline state of long-chain synthetic and naturally occurring molecules. The noncrystalline state may be a polymeric fluid, a rubbery elastic semi-...Macromolecular condensed state involves crystalline state and non-crystalline state of long-chain synthetic and naturally occurring molecules. The noncrystalline state may be a polymeric fluid, a rubbery elastic semi-solid or a rigid glass.展开更多
The relationship between isothermal magnetic entropy change DELTA S andadiabatic temperature change DELTA T_(ad) was deduced according to the principles of thermodynamics.The MCE and the engineering application were d...The relationship between isothermal magnetic entropy change DELTA S andadiabatic temperature change DELTA T_(ad) was deduced according to the principles of thermodynamics.The MCE and the engineering application were discussed for Gd and several new kinds of magneticrefrigerating materials near room temperature, Gd_5Si_2Ge_2, MnFeP_(0.45)As_(0.55) and LaFe_(11.2)Co_(0.7)Si_(1.1). Isothermal entropy change is proportional to adiabatic temperature change with afactor of T/C (T is temperature, C is heat capacity). When the comparison of magnetacoloric effectis made for two different materials, we should consider isothermal entropy change as well asadiabatic temperature change.展开更多
文摘Macromolecular condensed state involves crystalline state and non-crystalline state of long-chain synthetic and naturally occurring molecules. The noncrystalline state may be a polymeric fluid, a rubbery elastic semi-solid or a rigid glass.
文摘The relationship between isothermal magnetic entropy change DELTA S andadiabatic temperature change DELTA T_(ad) was deduced according to the principles of thermodynamics.The MCE and the engineering application were discussed for Gd and several new kinds of magneticrefrigerating materials near room temperature, Gd_5Si_2Ge_2, MnFeP_(0.45)As_(0.55) and LaFe_(11.2)Co_(0.7)Si_(1.1). Isothermal entropy change is proportional to adiabatic temperature change with afactor of T/C (T is temperature, C is heat capacity). When the comparison of magnetacoloric effectis made for two different materials, we should consider isothermal entropy change as well asadiabatic temperature change.
