Product description
This series of box-type atmosphere furnaces is designed for heat treatment under controlled atmosphere (inert gas, reducing gas, etc.) protection. The furnace body adopts an imported high-purity alumina fiber vacuum adsorption molded furnace lining, which has excellent thermal insulation performance and high mechanical strength. The furnace internal pressure can reach0.04 MPa, resistance wire, silicon carbide rod, or silicon molybdenum rod can be selected as heating elements according to process requirements, covering a wide temperature range. The equipment adoptsPIDIntelligent temperature control adjustment, temperature control accuracy up to±1°C, with good furnace temperature uniformity. The equipment has a reasonable structure, is energy-saving and safe, and can be optionally equipped with flexible functions such as atmosphere introduction and vacuum pumping. It is widely used by universities, research institutes, and industrial and mining enterprises for inert atmosphere sintering, annealing, and catalytic reactions of metals, non-metals, ceramics, composite materials, and other materials. It is an ideal choice for laboratory R&D and small-batch production.
Technical Features
Furnace internal slight positive pressure design: maximum pressure up to0.04 MPa, meeting specific process requirements under atmosphere protection.
High-efficiency insulation furnace: Made of imported high-purity alumina fiber vacuum adsorption molding, with high thermal efficiency, high strength, fast heating, and energy saving.
Multiple heating elements optional: Supports resistance wire, silicon carbide rod, silicon molybdenum rod, adaptable to different temperature levels (up to1600°Cabove).
Excellent temperature uniformity: reasonable heater structure and power distribution effectively improve the temperature consistency inside the furnace.
High precisionPIDTemperature control: Temperature control accuracy reaches±1°C, fast response, stable and reliable.
Flexible function expansion: Can be optionally equipped with atmosphere protection system, vacuum system (vacuum furnace type) to meet various process scenarios.
Multiple safety protections: Equipped with over-temperature, thermocouple break, over-current, and other protection measures for safe and reliable operation.
| Product Model | X1700-322 | X1700-433 | X1700-544 |
| Furnace dimensions | 300*200*200mm | 400*300*300mm | 500*400*400mm |
| Maximum temperature | 2000°C | 2000℃ | 2000℃ |
| Heater | Resistance wire/Silicon carbon rod/Silicon molybdenum rod | ||
| Housing structure | Double-layer air-cooled housing structure | ||
| Temperature control accuracy | ±1°C | ||
| Temperature control method | PIDAdjustment | ||
| Heating rate | ≤20℃/min | ||
| Ultimate vacuum | ≤-100Pa | ||
| Limit pressure | ≤40KPa | ||
| Control system | Touch screen, fully automaticPLCControl system | ||
Application fields
New material R&D: sintering and synthesis of materials such as phosphors, diamonds, ceramics, and composite ceramics in an inert atmosphere.
Metal and non-metal heat treatment: annealing, reduction, catalytic reactions, and other processes under atmosphere protection.
Chemistry and Materials Science: Catalyst activation, powder metallurgy, inorganic material atmosphere treatment.
Universities and research institutes: experimental research and teaching demonstrations in materials, physics, chemistry, and other disciplines.
Industrial and Mining Enterprises: Small batch production, process validation, quality control sample preparation.
Product advantages
Safe and reliable: rigorous structural design, multiple protection measures, suitable for long-term continuous operation.
Simple operation: user-friendly interface, convenient parameter setting, one-key start.
High temperature control accuracy: ±1°CEnsures process repeatability and product consistency.
Good insulation effect: High-purity alumina fiber furnace significantly reduces heat loss, saving energy and being environmentally friendly.
Wide temperature range: equipped with different heating elements, covering from normal temperature to ultra-high temperature zones.
Good furnace temperature uniformity: Optimized heating layout reduces temperature difference, ensuring consistent sample processing results.
Flexible functionality: Can be upgraded to atmosphere or vacuum furnace types to meet diverse process requirements.
Energy-saving and economical: reasonable structure and efficient thermal insulation design reduce operating costs, making it the best choice for laboratories and small-batch production.
