Thermogravimetry · 2019-09-12 · Thermogravimetry CH 2252 Instrumental Methods of Analysis Unit...
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Thermogravimetry
CH 2252 Instrumental Methods of Analysis
Unit – III
www.msubbu.in
M. Subramanian
Assistant Professor
Department of Chemical Engineering
Sri Sivasubramaniya Nadar College of Engineering
Kalavakkam – 603 110, Kanchipuram (Dist)
Tamil Nadu, India
08-Feb-2010
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Thermal Analysis Methods
• The analytical techniques used to study changes in physical properties with temperature are called thermal analysis techniques
• They include thermogravimetric analysis (TGA), differential thermal analysis (DTA), differential scanning calorimetry (DSC), thermometric titration (TT), and direct injection enthalpimetry, thermometric titration (TT), and direct injection enthalpimetry, dynamic mechanical analysis (DMA), and thermomechanical analysis (TMA).
• Thermal analysis techniques are used in the characterization of inorganic and organic compounds, polymers, pharmaceuticals, metals, alloys, glasses, ceramics, and many manufactured products.
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Thermogravimetry
• Thermogravimetry or thermogravimetric analysis (TGA) measures the mass (weight) of a sample in a specified atmosphere as the temperature of the sample is programmed.
• The most common temperature program is a linear increase in temperature with time, although isothermal programs, stepped temperature programs, and so on can be used.temperature programs, and so on can be used.
• The output from a TGA experiment is a plot of mass (or mass%) vs. temperature. The TGA plot is called a thermal curve.
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Interpretations from TGA curve
• The weight loss at a temperature is helpful to determine the composition of a compound and follow reactions in its decomposition
• It also enables to identify crystals of unknown composition
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TGA Instrumentation
• Consists of:
– sensitive balance (usually a microbalance) for continuously measuring sample weight
– furnace surrounding a sample holder
– purge gas system for providing inert or reactive atmospheres
– computer to control the furnace temperature, data collection and data processingand data processing
– auto-samplers
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Block diagram
Schematic
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Instrumentation details
• Balance: 1 to 1000 mg, with typical sample size of 5 to 20 mg
• Furnace: heating rates up to 1000oC/min (typically 200oC/min); cooling at ~50oC/min through forced air circulation. Furnace upper temperatures: 1500oC, 1700oC, or 2400oC.
• Purge gas: argon or nitrogen for providing inert atmosphere; air • Purge gas: argon or nitrogen for providing inert atmosphere; air for combustion or oxidation studies; hydrogen for reducing atmopshere
• Sample holder: quartz, platinum, and various ceramics
• Thermocouple is made as small as possible and placed close to the sample holder
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Analytical Applications of TGA
• Determination of correct drying temperatures for precipitates used in gravimetric analysis
• Identification of gases given off while a sample’s temperature is increased
• By determining the residues by techniques such as XRD, and • By determining the residues by techniques such as XRD, and gases by IR spectroscopy, the identification of material is possible
• TGA is very important in determining the upper use temperatures of materials such as polymers by identifying the temperature at which oxidative degradations occur on heating in air
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Identification of compounds in a mixture
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Estimating Magnesium Oxide in a mixture of Magnesium Oxide [MgO] and
Magnesium Oxalate [Mg(COO)2.2H2O]
Temperature = 500oC
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Robinson, Undergraduate Instrumental Analysis 6th Edition, Marcel Dekker, New York
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Determination of Stability of Polymers
Robinson, Undergraduate Instrumental Analysis 6th Edition, Marcel Dekker, New York
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Derivative Thermogravimetry
• Examination of a TGA curve will show that a sample’s weight loss associated with a particular decomposition occurs over a considerable temperature range, not at a single temperature.
• When TGA is used to identify an unknown compound, this wide range is a handicap because the uncertainty of identification is increased.
• This problem can be partially overcome by derivative thermogravimetry (DTG). In DTG, the first derivative of the TGA curve is plotted with respect to temperature.
• In this method, temperature increase slows as weight loss increases. This is done so that the exact temperature at which a peak occurs can be more accurately identified.
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Robinson, Undergraduate Instrumental Analysis 6th Edition, Marcel Dekker, New York
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TGA of CuSO4.5H2O
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Desorption Studies
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Determination of Stoichiometry of Oxides
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Buoyancy Correction
• Due to changes in density of a gas as the temperature changes, buoyancy corrections must be made in TGA experiments
• Without corrections every sample will appear to show a mass increase during a heating experiment
• TGA experiments are usually corrected for the effect of buoyancy by performing blank experiment
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Influence of Heating Rate
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Influence of Heating Rate
• If the sample undergoes chemical reactions, the temperature region in which the reaction occurs is very much dependent on the heating rate.
• In general, higher heating rates cause reactions to shift to higher temperatures
• Sample controlled TGA: a quite different approach for separating overlapping reactions makes use of rate of change in sample weight to automatically control the heating rate: the faster the change in mass, the slower the heating rate.
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