HOT AIR OVEN

Hot Air Oven

The Hot Air Oven: A Cornerstone of Laboratory Precision The Hot Air Oven stands as a versatile workhorse in laboratories worldwide, providing precise and uniform heating for a diverse array of applications. From the mundane to the mission-critical, this instrument plays an essential role in research, quality control, and various other laboratory procedures. Its ability to deliver consistent and repeatable results makes it a cornerstone of scientific accuracy and reliability. One of the primary functions of the Hot Air Oven is drying. Whether removing moisture from samples for analysis, preparing materials for further processing, or simply sterilizing glassware, the oven's controlled heating environment ensures thorough and efficient drying. Its adjustable temperature range allows for precise control over the drying process, preventing damage to sensitive samples while maximizing efficiency. Beyond drying, the Hot Air Oven excels in heating applications. It provides a stable and uniform temperature platform for reactions, incubations, and other temperature-sensitive processes. The oven's precise temperature control eliminates temperature fluctuations, ensuring consistent results and minimizing experimental variability. This level of control is crucial for maintaining the integrity of experiments and ensuring the reproducibility of findings. Sterilization is another key application of the Hot Air Universal Oven. Its high-temperature capabilities effectively eliminate microorganisms, making it an invaluable tool for sterilizing laboratory equipment and supplies. The oven's uniform heating ensures that all surfaces reach the required temperature for sterilization, providing a sterile environment for sensitive procedures. Furthermore, the Hot Air Oven finds application in heat treating processes. By subjecting materials to controlled heating cycles, the oven can alter their physical properties, enhancing their strength, durability, or other desired characteristics. This capability is particularly useful in materials science research and industrial quality control. The Hot Air Universal Oven's versatility stems from its precise temperature control and uniform heating. Advanced temperature regulation systems maintain a stable temperature within the chamber, ensuring consistent results regardless of the application. The oven's design promotes uniform heat distribution, eliminating hot spots and ensuring that all samples or materials receive the same thermal treatment. This uniformity is critical for achieving repeatable results and ensuring the reliability of experimental data. In summary, the Hot Air Universal Oven is an indispensable tool for any laboratory requiring precise and uniform heating. Its versatility, reliability, and ability to deliver consistent results make it a valuable asset for researchers, quality control professionals, and anyone involved in temperature-sensitive laboratory procedures. From drying and heating to sterilizing and heat treating, the Hot Air Universal Oven stands as a testament to the importance of precise temperature control in scientific endeavors. Key Features and Benefits Hot Air Oven: Applications:

• For variety of thermal processing applications like �
• Component & stability testing
• Core hardening
• General lab work
• Drying

Features Hot Air Oven:

• Hot Air Oven Double walled construction, Inner chamber made of stainless steel.
• Outer chamber is made of mild steel attractively finished in powder coating for durable operation.
• Inner chamber is fabricated with ribs to adjust trays to any convenient height.
• Oven supplied with removable perforated trays 2 or 3 depending on sizes.
• Tray made of Stainless Steel.
• It Insulated by 2.5” gap between the walls is filed with special grade glass wool for proper insulation and to avoid heat losses.
• It is double walled inner Stainless Steel and outer chamber mild steel with powder coated paint fitted with heavy stainless steel hinges with spring loaded lock.
• Heating elements are made of high-grade Nichrome wire, which are put inside the porcelain beads and placed at the bottom for uniform temperature all over the space.
• Inner SS 304 Sheet thickness-0.5 mm thickness, Outer MS sheet thickness-1mm
• The temperature is controlled by a capillary thermostat variable from 5 deg. C above ambient to 250 deg. C with a sensitivity of +/- 2 deg. C
• Air ventilators are provided at top as well as at the bottom to ventilate gases and fumes if any.
• The equipment is provided with a panel which is just below the door having a capillary type Thermostat, thermostat control known knob, On/Off switch, two pilot lamps and provision for fixing the Timer.
• Supplied with cord and plug, Suitable to operate on 220V as per indicator single phase, 50 HZ AC Supply

Technical Specification:

Model No	SK181
Inner Size (W X H X D)	350x350x350mm
No. of Shelves	1 Nos
Rating	1.5 KW
Max Temperature Range	5 deg. C above ambient to 250 deg. C with a sensitivity of +/- 2 deg. C
Operating Temp Range	5 deg. C above ambient to 200 deg. C with a sensitivity of +/- 2 deg. C
MOC Inner	Stainless Steel
MOC Outer	mild steel attractively finished in powder coating
Heating elements	high-grade Nichrome wire
Insulation	special grade glass wool
Tray	Stainless Steel
Power Supply	220 Volts 1 phase, 50 Hz, AC Supply