ASTM E2958 Standard Test Methods for Kinetic Parameters by Factor Jump/Modulated Thermogravimetry
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
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- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- 19.020
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- 29
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- 29.020
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- 29.035
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- BSI PD IEC/TS 60216-7-1 Electrical insulation materials — Thermal endurance properties Part 7–1: Accelerated determination of relative thermal endurance using analytical test methods (RTEA) — Instructions for calculations based on activation energy
- ISO 11358-2 Plastics - Thermogravimetry (TG) of polymers - Part 2: Determination of activation energy - Second Edition
- ASTM E1641 Standard Test Method for Decomposition Kinetics by Thermogravimetry Using the Ozawa/Flynn/Wall Method
- ASTM E1877 Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
- IEC 60216-5 Electrical insulating materials – Thermal endurance properties – Part 5: Determination of relative thermal endurance index (RTE) of an insulating material - Edition 3.0; Includes Access to Additional Content
- Картотека зарубежных и международных стандартов
ASTM International
Standard Test Methods for Kinetic Parameters by Factor Jump/Modulated Thermogravimetry
N E2958
Annotation
These test methods describe the model-free determination of Arrhenius activation energy by thermogravimetry using the factor jump (1)2 (Method A) or modulated thermogravimetry (2) (Method B) techniques. With the assumption of a first-order kinetic model, the pre-exponential factor is additionally determined.
These test methods are applicable to materials with well-defined decomposition profiles, namely, a smooth, continuous mass change.
These test methods are applicable to decomposition occurring in the range from 400 K to 1200 K (nominally 100°C to 900°C). The temperature range may be extended depending on the instrumentation and material used.
The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
There is no ISO standard similar to this standard.
This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
2 The boldface numbers in parentheses refer to a list of references at the end of this standard.
Автоматический перевод:
Методы Стандартной пробы для Кинетических Параметров Фактором Подскочили/Смодулировали Термогравиметрия
