ASTM E1269  Standard Test Method for Determining Specific Heat Capacity by Differential Scanning Calorimetry,£¨ÓòîʾɨÃèÈÈÁ¿·¨²â¶¨±ÈÈÈÈÝÁ¿µÄ±ê×¼ÊÔÑéÒªÁ죩¡£

ASTM E1641-16 Standard Test Method for Decomposition Kinetics by Thermogravimetry Using the Ozawa/Flynn/Wall Method, £¨Ê¹ÓÃOzawa/Flynn/WallÒªÁìͨ¹ýÈÈÖØÆÊÎöµÄÆÊÎö¶¯Á¦Ñ§µÄ±ê×¼²âÊÔÒªÁ죩¡£

ASTM E794-06 Standard Test Method for Melting And Crystallization Temperatures By Thermal Analysis, £¨ÓÃÈÈÆÊÎö·¨²â¶¨ÈÛÈںͽᾧζȵıê×¼ÊÔÑéÒªÁ죩¡£

ASTM E793-06 Standard Test Method for Enthalpies of Fusion and Crystallization by Differential Scanning Calorimetry, £¨ÓòîʾɨÃèÁ¿ÈÈ·¨²â¶¨ÈÛÈںͽᾧìʵıê×¼ÊÔÑéÒªÁ죩¡£

ISO 11357-4 Plastics, Differential scanning calorimetry(DSC), Part 4: Determination of specific heat capacity, £¨ËÜÁÏ£¬²îʽɨÃèÁ¿ÈÈ·¨(DSC)£¬µÚ4²¿·Ö£º±ÈÈÈÈݵIJⶨ£©¡£

ISO 11358-3 Plastics, Thermogravimetry(TG) of polymers, Part 3: Determination of the activationenergy using the Ozawa-Friedman plot andanalysis of the reaction kinetics, £¨ËÜÁÏ£¬¾ÛºÏÎïµÄÈÈÖØ·¨£¨TG£©£¬µÚ3²¿·Ö£ºÓÃOzawa Friedmanͼ²â¶¨»î»¯Äܺͷ´Ó¦¶¯Á¦Ñ§ÆÊÎö£©¡£

ISO 11357-3 Plastics, Differential scanning calorimetry (DSC), Part 3: Determination of temperature and enthalpy of melting and crystallization, (ËÜÁÏ£¬²îʾɨÃèÁ¿ÈÈ·¨£¨DSC£©£¬µÚ3²¿·Ö£ºÈÛ»¯ºÍ½á¾§Î¶ȺÍìʵIJⶨ)¡£

ISO 11357-2 Plastics, Differential scanning calorimetry (DSC), Part 2: Determination of glass transition temperature and step height, (ËÜÁÏ£¬²îʾɨÃèÁ¿ÈÈ·¨£¨DSC£©£¬µÚ2²¿·Ö£º²£Á§»¯×ª±äζȺĮ́½×¸ß¶ÈµÄ²â¶¨)¡£

ISO 22768 Raw rubber and rubber latex, Determination of the glass transition temperature by differential scanning calorimetry (DSC), £¨ÉúÏ𽺺ÍÏ𽺽ºÈ飬ÓòîʾɨÃèÁ¿ÈÈ·¨£¨DSC£©²â¶¨²£Á§»¯×ª±äζȣ©¡£