Vertical Split Quench Tube Furnace 1200°C – TT-VTF-60-1200
Vertical Split Quench Tube Furnace 1200°C – TT-VTF-60-1200 with fluid bed delivers consistent high-quality results. Designed to be compact, portable, and lightweight, it features a split chamber for quick and convenient access to the tube. The standard package includes a set of stainless steel vacuum sealing flanges with valves and a pressure gauge
Advanced Ceramic Materials – Enables high-temperature sintering, quenching, and densification of ceramics. Ensures structural integrity, thermal resistance, and durability for both research and industrial applications.
Nanomaterials Research – Provides precise and uniform heat treatment of nanopowders, composites, and coatings. Supports functional nanomaterial development for catalysis, electronics, and energy storage.
Semiconductor Materials – Facilitates diffusion, annealing, and oxidation of semiconductor substrates. Split-tube design allows rapid access for quenching and precise temperature control critical for microelectronics.
Powder Metallurgy – Supports high-temperature sintering and quenching of metal powders into dense, uniform components. Widely applied in the production of advanced alloys and prototype parts.
Petrochemical & Chemical Laboratories – Suitable for catalyst activation, quenching reactions, and thermal decomposition under vacuum or controlled atmosphere. Ensures reproducible results for chemical R&D.
Aerospace Materials Engineering – Enables high-performance alloy and ceramic processing with rapid quench capability. Ensures thermal stability validation for aerospace components under extreme conditions.
Energy & Battery Research – Provides controlled atmosphere heating and quenching for electrode materials, solid electrolytes, and next-generation battery systems. Ensures reliability in high-temperature material testing.
Universities & Research Institutes – Ideal for advanced academic studies in materials science, chemistry, and engineering. Compact, portable design supports versatile experiments and laboratory teaching.
Industrial Quality Control & Certification – Delivers repeatable high-temperature quenching and testing for validation, compliance verification, and certification. Meets ISO, CE, SGS, and TÜV requirements.
Furnace Shell
- Constructed from Q235 low-carbon steel with an electrostatic-resistant, corrosion-resistant surface finish.
- Built with a durable double-layer metal frame and thermal insulation fan structure to maintain a low external surface temperature.
- Vertical operation design — samples are suspended from the upper sealing flange for straightforward handling.
Refractory Material
- Multi-layer insulation made of lightweight alumina ceramic fiber and premium-grade insulation board. Free of asbestos, the design minimizes heat loss and keeps energy usage low.
Heating System
- Features high-performance heating elements with radiant heat distribution inside the furnace chamber, ensuring energy efficiency and a long service life.
- Heating elements are evenly distributed around the chamber to support uniform temperature control.
Electromagnetic Sample Suspension System
- An upper sealing flange includes a hook connected to an electromagnet, which is operated through a relay system.
- A sealing flange at the base of the furnace connects to a high-vacuum baffle valve, which can be linked to a water or oil tank for high-temperature quenching.
- Made with 304 stainless steel, the sealing flanges support vacuum or controlled atmosphere environments within the furnace tube.
- Supplied with high-quality quartz tubes, with options for metal or alumina ceramic tubes depending on application needs.
Temperature Control Panel
- Equipped with advanced controllers capable of handling complex thermal processes.
- Supports up to 30 programmable segments for automated temperature profiling.
- Includes over-temperature protection and fault detection for enhanced safety.
| Product Model | Heating zone(mm) | Furnace Tube Size (mm) | Maximum Temperature | Working Temperature | Voltage | Power | Heating element | Temperature Control Accuracy |
| TT-VTF-60-1200 | 440 | Φ60×1000 | 1200℃ | 1100℃ | 220V (110V is also available) | 3KW | HRE | ±1℃ |
| TT-VTF-80-1200 | 440 | Φ80×1000 | 1200℃ | 1100℃ | 220V (110V is also available) | 4KW | HRE | ±1℃ |
| TT-VTF-100-1200 | 440 | Φ100×1000 | 1200℃ | 1100℃ | 220V (110V is also available) | 4KW | HRE | ±1℃ |
| TT-VTF-150-1200 | 500 | Φ150×1200 | 1200℃ | 1100℃ | 380V | 8KW | HRE | ±1℃ |
| TT-VTF-60-1400 | 300 | Φ60×1000 | 1400℃ | 1350℃ | 220V (110V is also available) | 3KW | SIC | ±1℃ |
| TT-VTF-80-1400 | 300 | Φ80×1000 | 1400℃ | 1350℃ | 220V (110V is also available) | 4KW | SIC | ±1℃ |
| TT-VTF-100-1400 | 300 | Φ100×1000 | 1400℃ | 1350℃ | 220V (110V is also available) | 5KW | SIC | ±1℃ |
| TT-VTF-60-1700 | 300 | Φ60×1000 | 1700℃ | 1600℃ | 220V (110V is also available) | 4KW | MoSi2 | ±1℃ |
| TT-VTF-80-1700 | 300 | Φ80×1000 | 1700℃ | 1600℃ | 220V (110V is also available) | 5KW | MoSi2 | ±1℃ |
| TT-VTF-100-1700 | 300 | Φ100×1000 | 1700℃ | 1600℃ | 220V (110V is also available) | 5KW | MoSi2 | ±1℃ |