UserCom | TA Tip | |
| UserCom 59 | The influence of water in solid materials, Part 3:
Investigations measured by TMA | more details
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| UserCom 58 | The influence of water in solid materials, Part 2:
Interactions measured by TGA-Sorption | more details
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| UserCom 57 | The influence of water in solid materials, Part 1:
Fundamentals and sorption behavior | more details
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| UserCom 56 | Calibration and adjustment, Part 4:
Delamination | more details
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| UserCom 55 | Calibration and adjustment, Part 3:
OIT and OOT applications | more details
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| UserCom 54 | Isothermal calibration and adjustment, Part 2:
Heating rate dependence of temperature measurement | more details
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| UserCom 53 | Calibration and adjustment of DSCs, Part 1:
Which materials are suitable? | more details
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| UserCom 52 | Moisture content, water content, loss on drying, Part 2:
Special possibilities using the TGA | more details
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| UserCom 51 | Moisture content, water content, loss on drying, Part 1:
What exactly is meant and how are these quantities determined? | more details
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| UserCom 50 | Measurement of the expansion behavior of materials
with a low coefficient of thermal expansion by TMA | more details
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| UserCom 49 | Thermogravimetry and gas analysis, Part 5:
TGA-Micro GC/MS | more details |
| UserCom 48 | Thermogravimetry and gas analysis, Part 4:
TGA-GC/MS | more details |
| UserCom 47 | Thermogravimetry and gas analysis, Part 3:
TGA/DSC-FTIR | more details |
| UserCom 47 | Thermogravimetry and gas analysis, Part 3:
TGA/DSC-FTIR | more details |
| UserCom 46 | Thermogravimetry and gas analysis, Part 2:
TGA-MS | more details |
| UserCom 45 | Thermogravimetry and gas analysis, Part 1:
Basic principles and overview | more details |
| UserCom 44 | Curve interpretation Part 7:
DMA combined with results from other thermal analysis techniques | more details |
| UserCom 43 | Curve interpretation Part 6:
Variation of DMA measurement conditions | more details |
| UserCom 42 | Curve interpretation, Part 5:
TMA curves | more details |
| UserCom 41 | Curve interpretation, Part 4:
TGA measurements | more details |
| UserCom 40 | Curve interpretation, Part 3:
DSC curves and curves from other thermal analysis techniques | more details |
| UserCom 39 | Curve interpretation, Part 2:
Variation of heating and cooling rates | more details |
| UserCom 38 | Curve interpretation, Part 1:
Variation of experimental conditions | more details |
| UserCom 37 | Sorption experiments | more details |
| UserCom 36 | Thermal analysis of polymers.
Part 6: TMA and DMA of elastomers | more details |
| UserCom 35 | Thermal analysis of polymers.
Part 5: DSC and TGA of elastomers | more details |
| UserCom 34 | Thermal analysis of polymers.
Part 4: TGA, TMA and DMA of thermosets | more details |
| UserCom 33 | Thermal analysis of polymers.
Part 3: DSC of thermosets | more details |
| UserCom 32 | Thermal analysis of polymers.
Part 2: TGA, TMA and DMA of thermoplastics | more details |
| UserCom 31 | Thermal analysis of polymers.
Part 1: DSC of thermoplastics | more details |
| UserCom 30 | Analytical measurement terminology in the laboratory.
Part 2: Uncertainty of measurement | more details |
| UserCom 29 | Analytical measurement terminology in the laboratory.
Part 1: Trueness, precision and accuracy | more details |
| UserCom 28 | Heat capacity determination at high temperatures by TGA/DSC.
Part 2: Applications | more details |
| UserCom 27 | Heat capacity determination at high temperatures by TGA/DSC.
Part 1: DSC standard procedures | more details |
| UserCom 26 | Optimum choice of method and evaluation in DMA measurements of composites | more details |
| UserCom 25 | Choosing the right baseline | more details |
| UserCom 24 | Influence of absorbed moisture on the mechanical properties of Polyamide 6 | more details |
| UserCom 23 | How to determine the optimum experimental parameters for DMA measurements | more details |
| UserCom 22 | Method development in thermal analysis. Part 2: | more details |
| UserCom 21 | Method development in thermal analysis. Part 1: | more details |
| UserCom 20 | The advantages of DSC cooling measurements for characterizing materials | more details |
UserCom 19 | DSC measurements at high heating rates – advantages and limitations | more details |
| UserCom 18 | The glass transition temperature measured by different TA techniques.
Part 2: Determination of glass transition temperatures | more details |
| UserCom 17 | The glass transition temperature measured by different TA techniques.
Part 1: Overview | more details |
| UserCom 16 | Interpreting DMA curves, Part 2 | more details |
| UserCom 15 | Interpreting DMA curves, Part 1 | more details |
| UserCom 14 | Interpreting TMA curves | more details |
| UserCom 13 | Interpreting TGA curves | more details |
| UserCom 12 | Interpreting DSC curves;
Part 2: Isothermal measurements | more details |
| UserCom 11 | Interpreting DSC curves;
Part 1: Dynamic measurements | more details |
| UserCom 10 | DSC purity determination | more details |
| UserCom 9 | Low-temperature calibration | more details |
| UserCom 8 | Tips on model free kinetics | more details |
| UserCom 7 | Measuring specific heat capacity | more details |
| UserCom 6 | Calibration | more details |
| UserCom 5 | Crucibles in thermal analysis | more details |
| UserCom 4 | Optimum utilization of the internal database of the STARe software or TSW870 software | more details |
| UserCom 3 | Investigating unknown samples | more details |
| UserCom 2 | Selection of the heating rate | more details |
| UserCom 1 | Different temperatures | more details |
