Carbolite™ CWF Chamber Furnace
Bench-mounted, general purpose laboratory chamber furnace. Carbolite™ CWF Chamber Furnace is available in a variety of sizes with a maximum operating temperature up to 1300°C.
Thermo Scientific™ Thermolyne™ Industrial Benchtop Muffle Furnaces
Perform ultra-high temperature applications with this industrial benchtop muffle furnace, which reaches a maximum temperature of 1200°C.
Carbolite™ CWF 13/5 Laboratory Chamber Furnace
Used as general purpose laboratory chamber furnaces with maximum temperature of 1300°C.
Carbolite™ AAF Chamber Furnace, Large Volume
Designed specifically to provide optimum ashing conditions to ensure complete combustion of the sample. Carbolite™ AAF Chamber Furnace, Large Volume is ideal for laboratories where ashing is interspersed with other heat treatment work.
Carbolite™ AAF Chamber Furnace, Small Volume
Designed specifically to provide optimum ashing conditions to ensure complete combustion of the sample. Carbolite™ AAF Chamber Furnace, Small Volume provides a continuous flow of preheated air through the chamber, and complies with ISO 1171:2010, ASTM D3174-04: 2010 and ASTM D4422.
Carbolite™ ELF Chamber Furnace
Designed for light duty and general use up to 1100°C. Carbolite™ ELF Chamber Furnace has a simple drop-down door and a top-mounted ceramic chimney.
Thermo Scientific™ Thermolyne™ Largest Tabletop Muffle Furnaces
Triple the usable working area with two supplied accessory refractory shelves using Thermolyne Largest Tabletop Muffle Furnace. Available in three temperature control models.
Carbolite™ Sample Tray for AAF 11/3
Suitable sample tray for the powerful and versatile AAF Ashing Furnace. Carbolite™ Sample Tray, AAF 11/3 should be used with a loading handle.
Carbolite™ CTF Wire-Wound Tube Furnace
Simply and economically designed single-zone tube furnace that can be used without the need of an additional work tube. Carbolite™ CTF Wire-Wound Tube Furnace uses a wire element that is wound directly onto a fixed diameter integral ceramic work tube.
Nabertherm Compact Muffle Furnace, LE Series
Features dual shell furnace housing of rust-free stainless steel, compact, lightweight construction, and heating elements encased in quartz glass tubes.
Nabertherm Muffle Furnaces with Flap Door
Nabertherm furnaces are perfect all-rounder for research and laboratory applications. They are manufactured from expertly finished, high quality materials and are easy to operate. The insulation out of non-classified fibre materials permits energysaving operation and fast heating times due to low heat storage and thermalconductivity.
Carbolite™ CWF11/23/301 Furnace
Excellent thermal uniformity within the chamber volume and resistant to day-to-day wear and tear. These models are not designed for ashing.
Nabertherm™ Muffle Furnace
Constructed with excellent workmanship, advanced and attractive design with high level of reliability. Nabertherm™ Muffle Furnace is equipped with a flap door that doubles as a work platform.
Thermo Scientific™ Thermolyne™ Atmosphere Controlled Ashing Furnaces
Achieve consistent temperature control with this furnace, which reaches 975°C with the standard manifold and 1093°C with the optional inconel manifold.
Thermo Scientific™ K114 Chamber Furnaces
Experience consistent temperature unformity, easy temperature settings and optimal use of chamber in a oven designed for daily work around the laboratory.
Nabertherm Muffle Furnace LT 1300 Series with C450 Controller
Heating elements on support tubes radiating freely into the furnace chamber provide for particularly short heating times. Robust lightweight refractory brick insulation allows a maximum working temperature of 1300 °C.
Fistreem International™ Heating Element, Calypso Ultrapure Water Still
Suitable replacement heating element for the economically priced, modest demand Calypso Still. Fistreem International™ Heating Element, Calypso Ultrapure Water Still is protected by a high temperature cut-off feature.
Nabertherm High Temperature Tube Furnace for Vertical Operation, RHTV Series
High-quality insulation materials made of vacuum-formed fiber plates enable energy-saving operation and a fast heating time due to low heat storage and heat conductivity. Different gas supply systems allow performance under non-flammable or flammable protective or reactive gases or under vacuum.