1700°C Mini Lifting Electric Furnace New Product Officially Released

The company has officially launched its new 1700°C Mini Lifting Electric Furnace, designed for advanced laboratory research and high-temperature material processing applications. Featuring a compact lifting structure, the furnace provides convenient operation, rapid heating performance, and precise temperature control for demanding thermal experiments.

Equipped with high-quality insulation materials and advanced heating elements, the furnace ensures excellent temperature uniformity, energy efficiency, and long-term operational stability. The lifting mechanism improves loading and unloading efficiency while enhancing safety during high-temperature processing.

This furnace is widely suitable for ceramic sintering, material analysis, powder metallurgy, and scientific research applications. The new product further expands the company’s high-temperature furnace solutions for laboratories and industrial customers worldwide.

Overview of a 1700°C Small Lifting Electric Furnace

• The 1700°C Small Lifting Electric Furnace is a compact high-temperature heating system designed for laboratory research, material analysis, and precision thermal processing applications. Featuring a lifting structure design, the furnace allows convenient loading and unloading while improving operational safety during high-temperature experiments.
• Equipped with high-quality heating elements and advanced insulation materials, the furnace provides rapid heating, excellent temperature uniformity, and stable thermal performance up to 1700°C. Its intelligent temperature control system ensures accurate temperature adjustment and programmable heating processes for reliable experimental results.
• The compact structure saves installation space while maintaining efficient heating performance, making it suitable for universities, research institutes, ceramics, powder metallurgy, and new material development applications. With reliable operation, energy-efficient performance, and user-friendly design, the furnace provides an ideal solution for advanced high-temperature laboratory processing.

Product Features and Advantages

thermal insulation materials

• The furnace adopts an advanced four-layer thermal insulation structure composed of alumina fiber cotton, alumina fiberboard, alumina polycrystalline fiberboard, and vacuum-formed high-purity alumina lightweight board materials. This optimized insulation design significantly reduces heat loss and improves thermal efficiency during high-temperature operation.
• Compared with traditional electric furnaces, the system achieves energy-saving performance exceeding 80%, greatly reducing power consumption and operating costs. The lightweight insulation materials also provide faster heating response, improved temperature stability, and excellent heat retention capability.
• In addition, the multi-layer insulation structure enhances furnace durability, maintains lower external shell temperatures, and creates a safer working environment. This design is widely suitable for high-temperature laboratory research, material sintering, heat treatment, and industrial thermal processing applications requiring efficient and stable heating performance.

Protect

• The system adopts an integrated modular control unit designed for high-precision temperature regulation and stable furnace operation. With advanced dual-loop control and dual-loop protection technology, the system ensures accurate process management while significantly improving operational safety and equipment reliability.
• It features comprehensive protection functions, including overshoot prevention, over-adjustment and under-adjustment protection, thermocouple breakage detection, phase loss protection, overvoltage and overcurrent protection, as well as overtemperature monitoring. The current feedback and soft-start functions help reduce electrical impact during startup, improving system stability and extending component service life.
• This intelligent control design enhances temperature accuracy, reduces operational risks, and ensures continuous stable performance for high-temperature laboratory research, industrial heat treatment, and advanced thermal processing applications.