Graphite Heating Plate NGHP-103 offers temperature control between RT and 400°C with an accuracy of 0.1°C. It is equipped with a PT100 sensor for precise temperature. This unit uses a stainless steel insulation layer for internal protection. It includes a stable base design to prevent movement during operation. Our heating plate features a high-purity graphite panel for efficient and uniform heating.
FAQ for Graphite Heating Plate NGHP-103
1: How does the PT100 sensor benefit the Graphite Heating Plate NGHP-103?
The PT100 sensor in the Graphite Heating Plate NGHP-103 provides precise temperature feedback, enabling accurate thermal control with a precision of 0.1°C, which is essential for sensitive lab procedures.
2: Is the Graphite Heating Plate NGHP-103 safe to use with high-temperature samples?
Yes, the Graphite Heating Plate NGHP-103 features a stainless steel insulation layer and mica soft plate protection, along with a cold-rolled steel exterior, all designed to ensure safety during high-temperature operations.
3: Can the Graphite Heating Plate NGHP-103 support large glassware or lab vessels?
The Graphite Heating Plate NGHP-103 includes a wide heating surface and a stable base design, providing solid support for larger lab containers without the risk of slipping or imbalance.
4: What makes the Graphite Heating Plate NGHP-103 suitable for uniform heating?
The Graphite Heating Plate NGHP-103 is equipped with a high-purity graphite panel that ensures even heat distribution across the surface, making it ideal for consistent heating in laboratory applications.
5: How can I extend the service life of the Graphite Heating Plate NGHP-103?
To maintain the performance of the Graphite Heating Plate NGHP-103, regularly clean the surface, avoid harsh chemicals or abrasive tools, and operate it within the recommended temperature limits.
6: What built-in safety features does a Graphite Heating Plate offer?
Our Graphite Heating Plate typically includes soft mica insulation and a stainless steel separation layer to prevent external heat transfer. Its cold-rolled steel body with a protective coating enhances operational safety and durability during extended heating sessions.
7: Why is graphite used as the surface material in a Graphite Heating Plate?
Graphite is chosen for its excellent thermal conductivity, which ensures uniform heat distribution across the plate. This makes the Graphite Heating Plate ideal for precise heating tasks, as it minimizes temperature fluctuations and supports stable, long-duration operations.
8: How can I maintain my Graphite Heating Plate for long-lasting use?
To keep a Graphite Heating Plate in optimal condition, clean the surface regularly after use, allow it to cool before handling, and store it in a dry area. Avoid using harsh chemicals or scratching the graphite surface to prevent damage.
9: What advantages does the LCD control panel provide on a Graphite Heating Plate?
The Graphite Heating Plate features an LCD panel with touch keys, allowing users to easily set and monitor temperature settings. This user-friendly interface improves accuracy, simplifies operation, and enhances overall workflow in the lab.
