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Designed with safety in mind, Thermo Scientific furnaces offer temperature ranges from 1100° to 1700°C, temperature control options to meet your application needs, as well as features that help you perform the most critical, as well as everyday applications.

Consistent performance at a high degree. Furnaces in laboratory and industrial settings are used every day for a wide variety of simple and technical applications. Deliver consistent results with a furnace you can depend on to attain your daily goals.

Tube furnaces are typically used for processing small samples or heating in an inert atmosphere. The single and three-zoned constructions are designed to create precise temperature control. Three-zone control enables the user to select a different temperature in each zone (e.g.

From drying delicate samples or everyday labware, to ashing waste in water treatment plants, to performing high-temperature quality tests in manufacturing, Thermo Scientific™ heating equipment helps deliver consistent results with products you’ve depended on for over 25 years.

Thermo Scientific accessories enhance and optimize the performance of your lab oven and furnace. Lab oven and furnace accessories include gas injection, exhaust connections, furnace racks, floor stands, frames shelves and racks, precision control valves, timers, filters, and pumps.

Applications, Request information Download infographic, Thermo Scientific ovens have delivered the best temperature uniformity for accurate test conditions for over 100 years., Thermo Scientific furnaces feature temperature programming for ease of use and consistent sequencing.

A simple, versatility single atomizer AAS with fully automatic gas box. A complete solution for laboratories with a main need to perform flame analysis but with occasional furnace samples., Achieve challenging detection limits with a single graphite furnace atomizer and interference removal with...

Sample preparation and introduction involve rendering a liquid or solid sample into a state that the instrument can process for elemental analysis. In the case of flame AAS, this involves atomizing the sample, which involves the creation of a fine mist dispersion.

Elemental impurities in pharmaceutical formulations can interfere with drug efficacy or have a toxic effect on the patient. Regulators have issued guidelines—such as ICH Q3D, USP 232 and USP 233 Elemental Impurities—for monitoring a range of metal elemental impurities in pharmaceutical materials...

Sinter is the primary feed material for making iron in a blast furnace. The production of high-quality sinter is crucial for assuring consistent, stable furnace productivity with a low consumption of reductants. Sinter quality begins with the proper selection and mixing of the raw materials.

With dedicated flame / furnace or combined flame and furnace options, our easy-to-use, fully automated AAS analyzers provide a cost-effective solution for low-throughput elemental analysis applications.

Data analysis in atomic absorption spectrometry (AAS) is a multi-step process, with the user having to select the correct method and wavelengths in order to obtain optimal results. Background correction is also a key component of successful AAS data analysis.

Sinter is the primary feed material for making iron and steel in a blast furnace. To ensure a high-quality product, iron and steel manufacturers must start with a high-quality sinter, based on a proper selection of raw materials.

US EPA Method 200.9 is the "Determination of Trace Elements by Stabilized Temperature Graphite Furnace Atomic Absorption (GFAA)." This regulatory method is for analyzing 16 dissolved and total recoverable elements in ground water, surface water, drinking water, storm runoff, industrial and domestic...

The Thermo Scientific™ ARL™ OPTIM'X Slag Analyzer presents a uniquely compact and reliable WDXRF platform configured with Thermo Scientific™ SmartGonio™ for analysis of slags and pig iron. This small but powerful instrument comes with factory installed calibration for slags using Jernkontoret...