TG-DTA

Thermogravimetry Differential Thermal Analysis (TG/DTA)

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Thermogravimetry Differential Thermal Analysis or TG/DTA is a simultaneous thermal analyzer that can characterize multiple thermal properties of a sample in a single experiment. The TG component measures temperatures where decomposition, reduction or oxidation occurs. It simultaneously measures the weight changes associated with decomposition, oxidation and any other physical or chemical changes that result in sample weight loss or gain. The DTA component shows whether decomposition processes are endothermic or exothermic. The DTA also measures temperatures corresponding to phase changes where no mass loss occurs, such as melting, crystallization and glass transitions.

Fundamentally, the “TG” of TG/DTA is very similar to standard thermogravimetric analysis (TGA). A TG/DTA measures the change in sample weight as a function of temperature (and/or time) under controlled gas atmosphere and temperature. Graphing the percent weight change over a programmed temperature range enables the study of physical or chemical processes that have caused the sample to lose or gain weight.

The “DTA” refers to differential thermal analysis. The DTA technique measures the difference between the sample temperature (T_s) and the temperature of a reference (T_r). A plot of T_s – T_R over a programmed temperature range will show a series of peaks or step changes that map the temperatures where thermal events occur. However, the amount of heat absorbed or released by the sample as it undergoes changes in temperature cannot be accurately quantified by the TG/DTA instrument. This heat quantity, known as change in enthalpy (delta H), can be accurately measured using differential scanning calorimetry (DSC).

Ideal Uses of TG/DTA

Thermal stability studies
Monitoring mass changes of materials under controlled gas atmosphere and temperature: volatiles, reactive gas evaluation, filler content, compositional analysis, material identification
Phase transitions of metals and alloys
Qualitative analysis of phase transitions: melting, Tg, crystallization
Determining the effect of oxidative or reductive atmospheres on materials
Analysis of polymers, organic and inorganic materials

Strengths

Rapid screening of thermal properties of materials
Simultaneous acquisition of thermogravimetry and phase transition data
Small sample size
Choice of atmospheres (inert or reactive)
Used for high temperature analysis of phase transitions

Limitations

Does not measure heat capacity
Not quantitative for enthalpy change (e.g. heat of fusion) measurement

TG/DTA Technical Specifications

Temperature: ambient to 1100°C
Atmosphere:
- Inert – Argon, Nitrogen
- Oxidative – O₂, Air
- Reductive – Hydrogen/Argon mixture
Sample: 0.1 – 180 mg
Heating Rate: 0.01 to 100.00°C/minute

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