1200.C Three Zone Tube Furnace
Introduction:
In order to meet the requirements of various types of CVD processes, this smart three zones tube furnace do not need to adjust each instrument separately.
Control instrument of multiple temperature zones are all integrated into the intelligent control system. All parameters will be setted through the touch screen. Multiple temperature zones set to the same temperature point, users can use as a single extended temperature zone. It continues the single-temperature zone tube furnace classic design, aesthetic and practical!
Main Features:
1. High purity quartz tube as furnace tube, Max. Temperature 1200.C(<1hour), continue working temperature Rt –1100.C.
2. 7”Color Touch screen LCD man-machine English interface, more intuitive and convenient operation, the graph of sintering curve with temperature changes makes you clear at a glance.
3. 30 segments programmable and auto control.
4. Can presetting 15 sintering curves to avoid the trouble caused by repeated settings of different experimental processes.
5. High purity alumina inorganic refractory, overall vacuum molding chamber, energy saving and ensure uniformity of temperature zone and a fast heating rate.
6. By using special lining import from Japan and high quality alloy heating wire with excellent acid and corrosion resistance, protected against chemical contamination at the best and longer service life.
7. Double layers steel casing with fan cooling, to ensure the surface of furnace below 50.C, safety for the operator.
8. Ring heating, open structure, convenient observation for operator, able to meet rapid sintering of small sample
9. Come with gas flowmeter, atmosphere sintering more convenient.
10. Unique flange has a multi-function test holes, insert the corresponding electrode to test tube temperature or atmosphere environment.
11. Three temperature zones, and each temperature zone can operate independently.
12. Can add modules to contol and download data remotely(optional).
13. Low power consumable, exquisite structure and light weight, it is the ideal tube furnace for material research labs, also used in factory for small production.
Main Specifications of Three Zone Tube Furnace:
Model | O1200-IIIT |
Chamber Model | Open |
Chamber Material | Imported high quality alumina fiber refraction insulation |
Heating Element | Imported high quality alloy heating wire |
Max.temperature | 1200.C |
Continue Working Temperature | ≤1100.C |
Heating Rate | ≤20.C/min(advice:10.C/min) |
Heating Zone | Three(3 zones), each temperature zone can operate independently |
Length of Heating Zone | 200+400+200mm |
Tube Material | High purity quartz |
Tube Sizes | Φ60×1400(mm)
Other optional sizes: Φ50×1400(mm) Φ80×1400(mm) Φ100×1400(mm) |
Sealing Mode | Vacuum Flange |
Vacuum | ≤10Pa |
Control Mode | Smart PID Control |
Operating Interface | English Graphical Interface |
Temperature Accuracy | +/- 1.C |
Presetting Curve | 15 Presetting Curve, 30 Segments Programmable |
Protection Setting | Over Temperature Alarm, Over Current Protection, Broken Thermocouple Protection |
Thermocouple | K Type |
Working Voltage | AC208-240V 50/60HZ |
Standard Accessories | Quartz Tube, Vacuum Flange, Tube Block, O-ring, Protective Gloves, Crucible Hook, Manual Book |
Certificate | CE, ISO |
Warranty | 18 months(not including consumable parts, such as quartz tube, heating elements, thermocouple), lifetime support. |
Which kinds of industry can use this Three Zone Tube Furnace?
College & Universities, Chemistry, Medicine, Building Materials, Electronics, Ceramic, etc.
Applications:
This three zone tube furnace satisfy the vacuum sintering of the vast majority of materials, the sintering of the protective atmosphere and all kinds of CVD experiments. And find applications across various industries and research fields due to their ability to provide controlled heating environments over long lengths. Here are some common applications:
Material Synthesis and Processing
Tubular furnaces are extensively used in material synthesis processes such as chemical vapor deposition (CVD), physical vapor deposition (PVD), and thermal evaporation. They enable precise control over temperature gradients, atmosphere, and heating rates, crucial for producing high-quality materials like nanoparticles, thin films, and nanowires.
Advanced Materials Research
In research laboratories, tubular furnaces are employed for studying the properties and behaviors of advanced materials such as ceramics, composites, and carbon-based materials. Researchers can simulate various thermal environments to investigate phase transitions, crystal growth, and other material phenomena.
Heat Treatment and Annealing
Industries like metallurgy and semiconductor manufacturing utilize tubular furnaces for heat treatment processes such as annealing, brazing, and sintering. These processes involve heating materials to specific temperatures and holding them at those temperatures for controlled durations to achieve desired material properties or microstructural changes.
Chemical Reactions and Catalysis Studies
Tubular furnaces are integral in conducting chemical reactions at elevated temperatures for catalysis studies and chemical synthesis. They provide a controlled environment to investigate reaction kinetics, catalyst performance, and reaction mechanisms, essential for developing new processes and improving existing ones.
Graphene Production
Tubular furnaces are commonly used in the production of graphene, a two-dimensional carbon allotrope with unique properties. Techniques such as chemical vapor deposition (CVD) utilize tubular furnaces to grow graphene layers on various substrates by decomposing carbon-containing gases at high temperatures.
Crystallization and Crystal Growth
In fields like crystallography and semiconductor research, tubular furnaces are employed for crystallization and crystal growth processes. By precisely controlling temperature gradients and growth conditions, researchers can grow large, high-quality crystals essential for various applications including electronics, optics, and photonics.
Laboratory Scale Testing
Tubular furnaces serve as versatile tools in research laboratories for conducting experiments across disciplines such as materials science, chemistry, and physics. They enable researchers to explore a wide range of temperature-dependent phenomena, facilitating fundamental research and innovation.
Solar Cell Fabrication
Tubular furnaces play a role in the fabrication of solar cells, particularly in processes like diffusion, deposition, and annealing of semiconductor materials. These processes are critical for optimizing the performance and efficiency of solar cell devices.
Carbonization and Pyrolysis
Tubular furnaces are utilized in carbonization and pyrolysis processes to convert organic materials into carbonaceous products. This is important in various industries, including carbon fiber production, waste treatment, and energy conversion.
Powder Metallurgy
In powder metallurgy, tubular furnaces are used for processes such as powder compaction, sintering, and alloying. These processes involve heating powdered metals to high temperatures to form dense, solid components with specific mechanical and physical properties.