Laboratory Mini Fluidized Bed Vertical Tube Furnace

Laboratory Mini Fluidized Bed Vertical Tube Furnace

Introduction:

The Mini Fluidized Bed Vertical Tube Furnace is a compact, high-performance thermal treatment device specifically designed for laboratory use. It is widely used in fields such as materials science, chemistry, ceramics, electronics, and new energy. This furnace combines the features of fluidized bed technology and a tube furnace, allowing it to process samples at high temperatures while providing an excellent fluidization state, promoting uniform heating and reactions within the samples.

Features and Benefits:

1. Vertical Design: The vertical arrangement saves space, making it easy to operate and load/unload samples.
2. Fluidized Bed Technology: Gas is introduced through a gas distribution plate at the bottom, creating a fluidized state. This causes sample particles to suspend and heat uniformly, improving heat exchange efficiency.
3. Tube Structure: The furnace body features a tubular structure with moderate internal space, ideal for processing small batches of samples.
4. Smart Operation: Equipped with a touch screen control interface that supports program settings and data recording, making operation and monitoring the experimental process convenient.
5. Atmosphere Control: Supports various atmospheric environments, including air, inert gases (such as nitrogen, argon), and more to meet different experimental needs.

Technical Parameters of Mini Fluidized Bed Furnace:

Model	LTO-1200-LTS-FBΦ25
Tmax	1200℃(< 1 hour)
Working temperature	300℃-1150℃(continuing)
Rated Power	1.2KW
Touch Screen Size	7″
Heating Rate	1℃/H-20℃/Min
Tube Diameter	Φ25mm
Furnace Chamber Size	φ80*200mm
Furnace Dimensions	L350*H390*W350mm
Control System	1. Can store up to 15 temperature profiles, avoiding the hassle of repeated settings for different experimental processes; 2. Intuitive experimental process, easy operation; 3. Embedded operating system with a bilingual (Chinese/English) graphical interface, 7-inch full-color touch screen input, intelligent human-machine interaction mode, non-linear sample temperature correction; 4. Features include over-temperature alarm, thermocouple break warning, and leakage protection.
Pressure Relief Valve	Automatically opens when the pressure inside the pipe exceeds the set value, releasing part of the medium to reduce pressure and prevent system damage due to excessive pressure.
Temperature Control Accuracy	±1℃
Heating Element	Mo-doped Fe-Cr-Al alloy
Sealing System
	Vacuum Degree: ≤10Pa (mechanical pump)
Weight	23KG
Service Support	One-year limited warranty with lifetime support (The warranty does not cover consumable parts, such as process tubes and O-rings. Please order replacement parts under related products below).

Applications:

The Mini Fluidized Bed Vertical Tube Furnace is designed for a wide range of applications, particularly in research and development settings where precise thermal processing is essential. Here are some of its key applications:

1. Materials Science:
   • Synthesis and sintering of advanced materials such as ceramics, composites, and nanomaterials.
   • Heat treatment of metals and alloys to study phase transformations and mechanical properties.
   • Processing of powders and particulate materials for uniform heating and reaction kinetics studies.
2. Chemistry:
   • Catalysis research, including the preparation and activation of catalysts at high temperatures.
   • Thermochemical processing, such as pyrolysis and gasification of various compounds.
   • Study of chemical reactions under controlled atmospheres and high temperatures.
3. Ceramics:
   • Calcination and sintering of ceramic materials to achieve desired phase structures and mechanical properties.
   • Processing of ceramic powders and green bodies in a controlled atmosphere.
4. Electronics:
   • Development and testing of electronic materials, such as semiconductors and dielectrics, under high temperatures.
   • Annealing of thin films and electronic components to enhance performance characteristics.
5. New Energy:
   • Research and development of energy storage materials, such as those used in batteries and supercapacitors.
   • Thermal processing of materials used in fuel cells and other renewable energy technologies.
   • Evaluation of materials under different atmospheric conditions to simulate real-world energy applications.

This versatile furnace is essential for laboratories involved in cutting-edge research, providing precise temperature control and uniform sample processing to ensure reliable and reproducible results.