The tube furnace used in university laboratories has the following characteristics:
High temperature stability:
The tube furnace adopts resistance wire heating, with balanced temperature distribution, which can achieve high-precision and high stability temperature control.
Advanced temperature control system and thermocouple sensors ensure real-time temperature monitoring and precise adjustment, meeting the requirements of scientific experiments for precise temperature control.
Fast heating speed:
Using efficient heating elements, such as high resistance alloy wire, with high surface load and fast heating rate, it can quickly reach the required experimental temperature in a short period of time.
Small size, easy to move and use:
The tube furnace has a compact structure, occupies a small space, and is easy to move and move in the laboratory.
The upper opening furnace cover design supports real-time observation of material status, meeting the needs of rapid cooling and heating.
Easy to operate:
The tube furnace adopts a digital temperature control system with preset and real-time monitoring functions, which can intuitively display parameters such as temperature and time.
Some high-end tube furnaces are also equipped with intelligent operating systems, allowing users to easily set experimental parameters through touch screens or remote computers, and monitor real-time temperature, atmosphere changes, and safety status inside the furnace.
Widely used:
Tube furnaces are suitable for various heat treatment, drying, sintering, annealing, quenching and other processes, and are widely used in manufacturing, scientific research, medicine and other fields.
It has important applications in multiple disciplines such as materials science, chemical engineering, and new energy research and development.
Good insulation effect:
The furnace adopts high-purity alumina polycrystalline fiber material, combined with vacuum adsorption technology, to ensure excellent insulation performance and thermal efficiency, significantly reducing energy consumption.
Some tube furnaces also adopt a double-layer shell structure, combined with thermal induction technology, effectively reducing the surface temperature of the furnace body.
Controllable atmosphere:
The two ends of the furnace tube of the tube furnace can be sealed or connected to gas pipelines, which facilitates the introduction of inert gas or reactive gas and achieves precise control of the experimental atmosphere.
Equipped with vacuum and atmosphere control systems, it can accurately regulate the gas composition and pressure inside the furnace, providing an ideal experimental platform for the reaction of materials in specific environments.
Safe and reliable:
The tube furnace adopts high-quality materials and advanced manufacturing processes to ensure the safety and reliability of the equipment.
Equipped with multiple safety functions, such as power-off when opening the door, over temperature alarm, leakage protection, etc., to ensure safe operation during the experimental process.
Easy maintenance:
The tube furnace adopts a modular design, which makes maintenance and replacement of components relatively easy, saving maintenance and time costs.
Some tube furnaces are also equipped with quick connect flange structures, simplifying the process of material handling and gas path connection, and reducing the possibility of damage to furnace tubes caused by installation.
Multifunctionality:
Some tube furnaces have a multi temperature zone design, which enables material synthesis and heat treatment experiments under different temperature conditions to be carried out in the same furnace, improving experimental efficiency and flexibility.
Support multi-stage program temperature control to meet the needs of different complex experiments.
In summary, tube furnaces used in university laboratories have become an ideal choice for scientific research and teaching due to their high temperature stability, fast heating speed, small size, easy operation, wide application, good insulation effect, controllable atmosphere, safety and reliability, easy maintenance, and multifunctionality.