Vertical Split Quench Tube Furnace 1400°C – TT-VTF-100-1400
Vertical Split Quench Tube Furnace 1400°C – TT-VTF-100-1400 with a fluid bed delivers consistent, high-quality results. Designed to be compact, lightweight, and easy to transport, it features a split chamber that provides quick and convenient access to the tube. The standard package includes stainless steel vacuum-sealing flanges with valves and a pressure gauge.
dvanced Ceramic Materials – Enables high-temperature sintering, densification, and rapid quenching of ceramic materials. Ensures excellent thermal resistance, durability, and mechanical strength for both research and industrial-scale applications.
Nanomaterials Research – Provides precise and uniform thermal treatment of nanopowders, composites, and thin films. Supports R&D in nanostructured materials for electronics, catalysis, and energy storage.
Semiconductor Processing – Facilitates controlled annealing, oxidation, diffusion, and quenching of semiconductor wafers. Ensures precise thermal control essential for microelectronics and optoelectronics applications.
Powder Metallurgy – Supports sintering and quenching of metal powders into dense, uniform components. Widely used in prototype development, alloy research, and high-performance manufacturing.
Petrochemical & Chemical Research – Suitable for catalyst activation, thermal decomposition, and high-temperature reaction studies under vacuum or controlled atmospheres. Provides reproducible results for laboratory and industrial R&D.
Aerospace Materials Engineering – Enables thermal processing and rapid cooling of advanced alloys, ceramics, and composites. Ensures strength validation and thermal stability of aerospace-grade materials under extreme conditions.
Energy & Battery Research – Delivers controlled heating and quenching for solid-state electrolytes, cathode/anode materials, and next-generation battery components. Ensures performance consistency and reliability in energy storage development.
Universities & Research Institutes – Ideal for advanced academic research and training in materials science, chemistry, and engineering. Compact design with versatile controls supports a wide range of experiments.
Industrial Quality Control & Certification – Provides ultra-high temperature testing and quenching for compliance, certification, and product validation. Meets ISO, CE, SGS, and TÜV requirements for regulated industries.
Furnace Shell
- Constructed from Q235 low-carbon steel, the shell features an electrostatically coated surface that resists corrosion.
- A solid, double-layer metal frame is integrated with a heat-insulated fan structure, ensuring the outer surface remains cool.
- Designed for vertical operation with a side-opening lid for easy handling.
Refractory Material
- Built with a multi-layer insulation system consisting of lightweight alumina ceramic fiber and high-quality insulation board.
- Free of asbestos, the structure minimizes heat loss and supports energy efficiency.
Heating System
- Fitted with high-performance heating elements that provide radiant heat evenly throughout the chamber—optimized for energy efficiency and long operational life.
- Heating elements are evenly positioned to ensure consistent temperature distribution.
Temperature Control Panel
- Equipped with advanced controllers designed for complex thermal processes.
- Supports up to 30 programmable segments for precise, automatic temperature control.
- Includes over-temperature and fault alarms for automatic safety protection.
Program Controller
- Designed for straightforward operation with intuitive programming.
- Allows up to 30 customizable steps for temperature profiling.
- Features integrated alarms and safety mechanisms for fault and temperature monitoring.
Electromagnetic Hanging Sample System
- The upper sealing flange includes a hook linked to an electromagnet, which is relay-controlled.
- A sealing flange at the base connects to a high-vacuum baffle valve and water or oil tank for high-temperature quenching operations.
- The 304 stainless steel sealing flange helps maintain a vacuum or controlled atmosphere within the furnace tube.
- Compatible with high-quality quartz tubes, as well as metal or alumina ceramic tubes, depending on specific operational needs.
| 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℃ |