Product Introduction

YSSYThe X1700 series of small and medium-sized box high-temperature furnaces is a high-performance heat treatment equipment designed for laboratories and small-batch production. It adopts a double-layer air-cooled high-quality carbon steel shell, combined with an imported high-purity alumina fiber vacuum adsorption molded furnace chamber, which has excellent thermal efficiency and structural strength. The heater can be selected from resistance wire, silicon carbide rod, or silicon molybdenum rod to meet the needs of different temperature ranges. The equipment is equipped withPIDHigh-precision temperature control system, with temperature control accuracy up to±1°C, ensuring excellent sintering results. Widely used in universities, research institutes, and industrial and mining enterprises, it is an ideal choice for new materials, ceramics, metals, and chemical laboratories for sintering various samples under atmospheric conditions.

Technical Features

High-efficiency insulation structure: The furnace chamber is formed by vacuum suction of imported high-purity alumina fiber, with high thermal efficiency and good mechanical strength, significantly reducing energy consumption.

Double-layer air-cooled shell: High-quality carbon steel outer shell with air-cooling design, low surface temperature, safe and comfortable operation.

Multiple heating elements optional: Supports resistance wire, silicon carbide rod, and silicon molybdenum rod, covering a wide range of applications from low to ultra-high temperatures.

Excellent temperature uniformity: Reasonable heater structure and power distribution effectively improve the consistency of temperature inside the furnace chamber.

High-precision temperature control:PIDIntelligent adjustment, temperature control accuracy up to±1°C, with rapid response, stable and reliable.

Wide temperature range: Can achieve from hundreds to200°Cworking temperature.

Application Fields

Materials science research: Sintering and heat treatment of new ceramics, metals, composite materials, and nanomaterials.

Chemical laboratories: Catalyst calcination, inorganic synthesis, high-temperature decomposition, and other processes.

Industrial and mining enterprises: Small product trial production, quality inspection, process optimization.

University teaching and scientific research: Experimental teaching and research projects in materials, physics, chemistry, and other disciplines.

Powder metallurgy: Pre-firing, solid-phase reactions, etc. of metal powders.

 Advantages

Safe and reliable: The shell remains at low temperature throughout, with complete electrical protection, suitable for long-term continuous operation.

Simple operation: User-friendly interface, one-button start, intuitive and convenient parameter setting.

Precise temperature control: ±1°CEnsures experimental repeatability and product consistency.

Good thermal insulation: Significantly reduces heat loss, energy-saving and environmentally friendly, fast heating.

High furnace chamber temperature uniformity: Ensures uniform heating of all parts of the sample, improving the yield of good products.

Strong adaptability: Multiple heating element configurations to meet different temperature and atmosphere requirements (atmospheric state).

Technical Parameters

Note: Non-standard customization can be performed according to actual working conditions.