TG 209 F1 Libra
Faster and more comprehensive characterization of materials
Based on over 50 years of experience in thermogravimetry, NETZSCH has developed the thermobalance TG 209 F1 Libra®. This instrument allows for analyses to be carried out even faster, more accurately, and across an extended temperature range.
Based on over 50 years of experience in thermogravimetry, NETZSCH has developed the thermobalance TG 209 F1 Libra®. This instrument allows for analyses to be carried out even faster, more accurately, and across an extended temperature range.
Features
Specifications
Features
Based on over 50 years of experience in thermogravimetry, NETZSCH has developed the thermobalance TG 209 F1 Libra®. This instrument allows for analyses to be carried out even faster, more accurately, and across an extended temperature range.
- Twice as fast by means of BeFlat® The unique BeFlat® function of the Libra automatically compensates for any external factors influencing the measurement, no time-consuming baseline determinations. This cuts work hours by up to 50%, leaving more time available, for example, for further measurements.
- 20 times faster due to high heating rates The heart of the TG 209 F1 Libra® is the micro furnace made of high-performance ceramics. It not only allows for a wider sample temperature range of up to 1100°C, but also for heating rates of up to 200 K/min. The user can thus receive the results of the analysis – even at highest temperature – within a few minutes, i.e. 20 times faster than for other thermobalances.
- More comprehensive and faster characterization by patented c-DTA®
- High-performance ceramics for a long lifespan
Specifications
Temperature range | RT to 1100°C at the sample |
Max. furnace temperature | >1100°C |
Heating and cooling rates | 0.001 K/min to 200 K/min |
Cooling time | 12 min (1100°C to 100°C) |
Wide measuring range | 2000 mg |
Resolution | 0.1 µg |
Sample crucible volume | up to 350 µl |
Atmospheres | inert, oxidizing, reducing, static, dynamic |
Vacuum-tight assembly | up to 10-2 mbar (1 Pa) |