Apollo Scientific

Thermogravimetry - TGA


	TG 209 F3 Tarsus - Thermo-Microbalance This easy-to-use thermo-microbalance was developed especially for routine applications in the field of plastics, but also for the chemical industry. It is the ideal starter unit up to 1000°C and, together with the DSC 200 F3 Maia®, represents a cost-effective overall concept. For more information please click here.

	TG 209 F1 Iris® - Thermo-Microbalance This premium thermobalance, through flexibility in the fittings, covers all imaginable applications of a modern TG in the range up to 1000°C. High sensitivity, short cooling times and the automatic sample changer (ASC), make this TGA particularly well-suited for the compositional analysis of plastics and rubbers. For more information please click here.

	TG 449 F3 Jupiter® - Thermo-Microbalance "Robust" and "dependable" are the outstanding characteristics of the TG 449 F3 Jupiter®. Any application requiring relatively high sample weights and high temperatures remains fair game. This thermobalance offers extension for TG-DSC and TG-DTA, coupling to QMS and FTIR, and corrosive gas and water vapor atmosphere. For more information please click here.

	TG 449 F1 Jupiter® - Thermo-Nanobalance Highest sensitivity and excellent long-term stability are united in the TG 449 F1 Jupiter®. Flexibility in the fittings and broadest temperature range enable every research application imaginable. SuperRes®, extension for STA, coupling with QMS and FTIR, water vapor furnace and Knudsen cell are striking examples of the flexibility. For more information please click here.

	TG 409 CD - Thermobalance The design of the TG 409 CD thermobalance is tailored for its application as a high-temperature instrument up to 2000°C with a graphite tube furnace and as unsurpassed Skimmer coupling for QMS up to 1450°C or 2000°C. For more information please click here.

	TG 429 CD - Thermobalance For temperatures over 2000°C, the TG 429 CD is unsurpassable. Its perfect concept, the tungsten furnace up to 2400°C working temperature, the vacuum-tight construction and the sophisticated gas paths for very pure atmospheres allow material studies in temperature ranges that cannot be achieved by any other thermobalance. For more information please click here.