1700.C 36L Heat Treatment Furnace
Introduction:
Big volume Heat Treatment Furnace adopts durable compact vertical structure, without auxiliary table, convenient operation.
The tilting angel of operating panel is 43, excellent user experiences.
The first-class workmanship using high-quality materials, High performance, max. temperature up to 1700.C, perfectly suited for the heat treatment of Jewelry, Gemstone,etc.
Main Features:
1. Max. Temperature 1700C, working temperature 800-1650C.
2. Intelligent 7” color touch screen temperature controller, easy to operate, clear heating process; can store temperature curve to avoid the trouble caused by repeated settings of different experimental processes.
3. 30 segments programmable and auto control.
4. Ceramic fibre furnace chamber, to ensure a fast heating rate, and save power.
5. By using special lining import from Japan and heating elements made of pure type molydenum disilicide, products are protected against chemical contamination at the best and longer service life.
6.Double layers steel casing with fan cooling, to ensure the surface of furnace below 50C, safety for the operator.
7.With the exhaust device(an exhaust chimney in the top of the furnace), effectively remove volatiles generated during sintering
8.Easy to move casters, more convenient.
9. Low power consumable, exquisite structure and light weight, it is the ideal heat treatment furnace for jewelry/gemstone industry.
10. Furnace furniture can be customized to maximize the efficient use of space.(Optional)
Technical Parameters:
Model | M1700-30IT |
Furnace structure |
•1800 type high purity ceramic fibre insulation (energy saving 40% and weight lighter about 30% than old furnace); • Double layers steel casing with fan cooling, to ensure the surface of furnace below 50.C. |
Chamber size
(working space) |
300*300*400mm(36L) |
Max. temperature | 1700 ℃(<1 hours) |
Working temperature | 800 -1650 ℃ |
Touch Screen
Temperature controller |
•Intelligent PID automatic control. •30 programmable segments for precise control of heating rate, cooling rate and dwell time. •Build in auto-tune function with overheating and broken thermocouple broken protection, over temperature protection and alarm allows for operation without attendant. •Centralized control 7” color LCD touch screen man-machine English graphics interface, clear heating process, more intuitive and convenient operation. •Can store sintering programs to avoid the trouble caused by repeated settings of different processes. |
Heating rate | 0-20 ℃ /min |
Thermocouple | B type |
Temperature accuracy | +/- 1 ℃ |
Heating element | M1800 high purity MoSi2 heating element |
Working voltage | AC 380V, 50 Hz (or as requirement) |
Max. Power | 9 Kw |
Dimension | 640(W)*1530(H)*900(D)mm |
Quantity / Net weight | 1set / 240kgs |
Warranty | 18 months(not including consumable parts, such as heating elements, thermocouple), lifetime support. |
Certificate | CE, ISO9001 |
Applications of Heat Treatment Furnace:
- Jewelry Industry: Ideal for annealing, brazing, and hardening precious metals and gemstones.
- Gemstone Industry: Enables precise heat treatment processes for enhancing gemstone color and clarity.
- Metalworking: Perfect for tempering, annealing, and stress relieving various metal components.
- Research and Development: Facilitates controlled heat treatment experiments for material testing and analysis.
- Manufacturing: Essential for improving material properties and achieving desired hardness levels in industrial components.
Benefits of Heat Treatment Furnace:
The benefits of using a heat treatment furnace are multifaceted and depend on the specific application and industry. Here are some common benefits:
Improved Mechanical Properties:
Heat treatment furnaces can enhance the mechanical properties of materials, including hardness, strength, ductility, and toughness. This leads to better performance and longevity of components in various applications.
Tailored Material Characteristics:
By controlling the heating and cooling processes, heat treatment furnaces allow for the customization of material properties to meet specific requirements, such as wear resistance, machinability, and corrosion resistance.
Enhanced Product Quality:
Heat treatment ensures uniformity in material structure and properties, reducing defects and inconsistencies in finished products. This results in higher-quality components with improved reliability and performance.
Extended Service Life:
Components subjected to appropriate heat treatment processes are less prone to premature failure and wear, leading to increased service life and reduced maintenance costs over time.
Cost Savings:
While initial investment in heat treatment equipment may be significant, the long-term benefits often outweigh the costs. Improved product quality, reduced scrap rates, and extended tool life contribute to overall cost savings for manufacturers.
Increased Efficiency:
Heat treatment furnaces offer precise temperature control and automation features, allowing for efficient and repeatable processes. This improves production efficiency and reduces the need for manual intervention, resulting in higher throughput and productivity.
Versatility:
Heat treatment furnaces can be used for a wide range of materials, including metals, alloys, plastics, ceramics, and composites. Their versatility makes them suitable for diverse industries and applications.
Environmental Benefits:
Certain heat treatment processes can result in environmentally friendly outcomes, such as reducing material waste, energy consumption, and harmful emissions. Advanced furnace designs incorporate energy-saving features to further minimize environmental impact.
Compliance with Standards:
Heat treatment processes performed in accordance with industry standards and specifications ensure compliance with regulatory requirements and customer expectations for product quality and performance.
Innovation and Research:
Heat treatment technology continues to evolve, driven by research and innovation. Access to advanced heat treatment methods and equipment enables organizations to develop new materials, improve existing processes, and stay competitive in the marketplace.
In summary, the benefits of using heat treatment furnaces include improved material properties, enhanced product quality, cost savings, increased efficiency, versatility, environmental considerations, compliance with standards, and opportunities for innovation and research.