Product Details:
Minimum Order Quantity | 1 Piece |
Brand | HAMCO |
Usage/Application | Precisely Drying of Sample |
Model Name/Number | HAMCO101 |
Temperature Range | 50-250 Degree Celsius |
Material | Stainless Steel |
Chamber Volume | 100 Litre |
Number Of Shelves | 2 |
Warranty | 1 Year |
Power Consumption | 2000 W |
Color | Matt Finished SS |
Features | Memmert Type Triple Walled |
Maximum Shelf Load | 100 Kg/ Shelf |
Size | 27 Ltr to 1000 Ltr |
Frequency Hertz | 50 Hz |
Voltage Volt | 230 V |
Air Flow Direction | Forced Air Circulation |
Approx Weight Eqip | 45 Kg |
Heat Up Time | 30 to 45 Min |
Approx Weight Ship | 50 Kg |
Control Type | Microprocessor based PID |
Temperature Uniformity | 2 Deg C |
Calibration Certificate | Calibration certificate for critical component |
Validation | 24 Hrs validation included |
Software | 21 CFR Software |
Data Logging | 10000 Data storage Memory |
Printer | Inbuilt Thermal Printer for data printing |
Temperature Safety | Temp Oveshoot Protection |
Movability | Mounted on castor wheel for easy Movability |
Certificate | "CE" Certified Oven |
Shelves | Wiremesh SS Rod shelves |
Documents | DQ,IQ,OQ,PQ Documents along with oven |
Print Mode | Both Online and Offline printing Available |
Country of Origin | Made in India |
A precision lab oven, often referred to as a laboratory oven, is a specialized piece of equipment designed for heating, drying, sterilizing, or conducting other thermal processing tasks in a controlled environment within a laboratory setting. These ovens offer precise temperature control, uniform heat distribution, and reliable performance to meet the stringent requirements of various scientific and research applications.
Key Features and Characteristics of Precision Lab Ovens:Temperature Control: Precision lab ovens provide accurate and stable temperature control, typically through electronic controllers and sensors such as thermocouples or RTDs (Resistance Temperature Detectors). Users can set specific temperature setpoints, and the oven maintains these conditions with minimal fluctuations.
Uniform Heat Distribution: Advanced airflow systems, insulation materials, and design features ensure uniform heat distribution throughout the oven chamber. This uniformity is crucial for consistent results and reliable performance, especially when processing sensitive materials or conducting experiments that require precise temperature gradients.
Safety Features: Precision lab ovens are equipped with various safety features to protect both the equipment and its contents. These may include over-temperature protection, safety alarms, door locks, and insulation materials that minimize external surface temperatures.
Durability and Construction: Laboratory ovens are constructed with high-quality materials such as stainless steel or other corrosion-resistant alloys to withstand harsh environments and frequent use. The interior chambers are often designed with smooth surfaces for easy cleaning and maintenance.
Airflow and Ventilation: Efficient airflow systems, including fans and air circulation mechanisms, ensure consistent temperature distribution and minimize temperature gradients within the oven chamber. Proper ventilation controls help remove moisture or fumes generated during heating processes, maintaining a safe and controlled environment.
Digital Controls and Interfaces: Modern precision lab ovens feature digital control interfaces, touchscreen displays, and programmable settings that allow users to set, monitor, and adjust temperature, time, and other parameters easily. These controls enhance user convenience, data logging, and process repeatability.
Versatility: Precision lab ovens are available in various sizes and configurations to accommodate a wide range of applications, from small benchtop units for laboratory-scale experiments to large-capacity ovens for industrial or commercial use. They may also offer specialized features such as vacuum capabilities, inert gas purging, or specific heating profiles tailored to unique research requirements.
Sample Drying and Sterilization: These ovens are commonly used for drying and sterilizing laboratory samples, glassware, instruments, and other materials that require controlled heating processes.
Material Testing and Research: Precision lab ovens support material testing, characterization, and research activities in fields such as chemistry, biology, pharmaceuticals, materials science, and environmental science.
Quality Control and Assurance: Industries rely on precision lab ovens for quality control and assurance processes to ensure product consistency, reliability, and compliance with regulatory standards.
Specialized Applications: Some precision lab ovens are designed for specific applications, such as annealing, aging, curing, baking, or other thermal processing tasks that require precise temperature control and uniform heating conditions.
Additional Information: