Overview of Tube Furnace

A tube furnace is a type of laboratory equipment used for high-temperature applications, featuring a cylindrical heating chamber designed to heat samples uniformly along its length. Commonly used in material processing, chemical analysis, and semiconductor manufacturing, it supports processes like annealing, sintering, and calcination.

Features of Tube Furnace

Uniform Heating: Ensures even temperature distribution throughout the sample.

Cylindrical Design: Facilitates consistent heating by minimizing hot spots.

Temperature Range: Capable of achieving high temperatures suitable for various processes.

Programmable Controls: Allows for precise control over heating cycles and profiles.

Gas Flow Control: Supports controlled atmosphere environments for specific reactions.

Compact and Efficient: Designed for efficient operation with minimal footprint.

(B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment)

Specification of B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment

The B Kind Thermocouple Stove is a high-performance electric-powered research laboratory tube heating system made for warmth treatment applications approximately 1000 ° C in air or 1300 ° C in vacuum/inert ambiences. It includes a durable building and construction with a high-purity alumina tube (OD 80mm, ID 60mm, length 600mm) bordered by premium-grade silicon carbide burner, making certain uniform temperature circulation ( ± 2 ° C )and fast home heating rates as much as 20 ° C/min. The heater is equipped with a B-type (Pt-Rh) thermocouple for accurate temperature dimension and a 30-segment programmable PID controller with digital interface, enabling customizable temperature level accounts, ramp/soak cycles, and real-time information tracking.

Operational flexibility is improved by its vacuum-tight style, supporting pressures to 10 ^ -3 mbar using a rotating vane pump (optional), and gas inlet/outlet ports for inert or reactive ambiences (argon, nitrogen, hydrogen). The double-layered stainless steel covering incorporates air-cooling fans to keep risk-free exterior temperature levels. Power requirements consist of 220V A/C, 50/60Hz, with an optimal power intake of 4.5 kW. Security attributes include over-temperature protection, automated breaker, and emergency situation shutdown.

Ideal for sintering, annealing, and materials research, the heater suits sample measure to 500mm in length. Requirement accessories consist of alumina crucibles, ceramic boats, and K-type thermocouples (optional). Compliance with CE, RoHS, and ISO 9001 ensures reliability. Optional upgrades include RS485 communication for computer connection, multi-zone temperature level control, and quartz tubes. The portable footprint (600mm x 500mm x 400mm) and user-friendly style make it appropriate for research laboratories needing precise high-temperature processing under controlled environments. Two-year guarantee and technological support are included.

(B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment)

Applications of B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment

The B Type Thermocouple Stove, an electric-powered research laboratory home heating devices efficient in getting to temperature levels as much as 1000 ° C or 1300 ° C, is a flexible vacuum environment tube furnace created for high-precision heat therapy applications. Its durable construction, integrated with a platinum-rhodium B-type thermocouple, guarantees phenomenal temperature level precision, security, and long life in extreme environments. This furnace is suitable for sectors and research setups needing controlled thermal processing under vacuum or inert atmospheres.

In materials science, the heating system enables advanced ceramic sintering, such as zirconia or alumina, and supports the advancement of high-performance compounds. Scientist utilize its uniform home heating and ambience control to manufacture nanomaterials, anneal nanoparticles, or grow single crystals without oxidation. The metallurgy field uses it for annealing, setting, and stress-relieving metals and alloys, consisting of steel and titanium, while vacuum environments prevent surface area destruction.

Semiconductor making take advantage of its exact temperature level slopes for silicon wafer handling, dopant diffusion, and thin-film deposition. The tube layout accommodates chemical vapor deposition (CVD) processes, necessary for producing graphene or carbon nanotubes. In chemistry labs, the furnace promotes driver activation, pyrolysis, and thermogravimetric analysis, with inert gas compatibility guaranteeing risk-free response problems.

Glass and ceramic markets utilize the furnace for melting, forming, and testing thermal growth buildings. Its vacuum capability is essential for degassing products or eliminating contaminations throughout high-temperature synthesis. Additionally, the tools supports warmth treatment of advanced polymers and carbon fibers, enhancing their architectural stability.

Key features consist of programmable temperature cycles, rapid cooling choices, and compatibility with different gas ambiences (argon, nitrogen). Television chamber fits diverse example dimensions, while energy-efficient heating elements lower operational prices. Security mechanisms, such as over-temperature protection and stress alleviation, guarantee trusted procedure.

Generally, this furnace is a cornerstone for laboratories and industrial settings needing precise, high-temperature handling under regulated environments, driving technology in research study, material development, and quality assurance.

Company Introduction

Welcome to Designerstudiostore, your premier source for high-quality industrial furnaces designed to meet the stringent demands of modern manufacturing. Our extensive range includes electric, gas, and oil-fired furnaces tailored for various applications such as heat treatment, forging, and laboratory use. With cutting-edge technology and innovative designs, we ensure energy efficiency and superior performance in every product. At Designerstudiostore, we prioritize customer satisfaction by offering customized solutions, reliable after-sales support, and seamless global delivery options. Explore our catalog and discover why businesses worldwide trust us for their heating needs.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment

What is a B-type thermocouple, and why is it used in this furnace?
A B-type thermocouple consists of platinum-rhodium alloys (30% rhodium vs. 6% rhodium) and is designed for high-temperature measurements up to 1700°C. It is used in this furnace due to its stability and accuracy in extreme heat (1000–1300°C), ensuring precise temperature control during processes like sintering or heat treatment, even in vacuum or controlled atmospheres.

What is the maximum operating temperature of this furnace?
The furnace achieves a maximum temperature of 1300°C in a vacuum or inert atmosphere and 1000°C in an oxidizing environment. The variation accounts for material limitations under different atmospheres. Continuous operation at 1300°C is possible but requires monitoring to prevent overheating and extending the heating element lifespan.

What safety features are included in the furnace?
Safety features include over-temperature auto-shutoff, emergency cooling systems, real-time temperature monitoring, and gas leak detection for inert atmospheres. The furnace shell remains cool to the touch, and built-in alarms alert users to irregularities, ensuring safe operation in laboratory settings.

How often should maintenance be performed?
Routine maintenance every 500–1000 hours includes calibrating the thermocouple, inspecting heating elements for wear, cleaning the quartz or ceramic tube, and checking vacuum seals. Annual professional servicing is recommended to ensure electrical components, insulation, and gas/vent systems function optimally.

What applications is this tube furnace suitable for?
It is used for high-temperature processes like metal/ceramic sintering, annealing, glass hardening, and materials research in vacuum or controlled atmospheres. Common industries include aerospace, metallurgy, and electronics manufacturing, where precise heat treatment under extreme conditions is critical. The tube design accommodates small batches of samples or components for R&D or small-scale production.

(B Type Thermocouple Oven 1000/1300°C Electric Powered Laboratory Heating Equipment Vacuum Atmosphere Tube Furnace Heat Treatment)