Description
The Pear Shaped Flask, Three Necks (One Side Neck at Angle, One Side Neck Parallel) is an advanced laboratory flask designed to provide enhanced versatility and efficiency for complex chemical processes. Manufactured from premium borosilicate glass (Boro 3.3), this flask offers outstanding resistance to thermal shock, high temperatures, and a wide range of chemicals, making it the ideal choice for challenging laboratory applications.
This flask features three necks—one side neck at an angle, one side neck parallel, and a central neck—providing ample connectivity options for condensers, adapters, and other laboratory apparatus. The pear-shaped design allows for better reagent mixing, uniform heat distribution, and efficient chemical reactions, making it suitable for distillation, reflux, and other processes requiring multiple connections.
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Key Features:
Three-Neck Design:
The three-neck configuration—one neck angled and one parallel—ensures that the flask can accommodate a variety of laboratory equipment, providing excellent flexibility and connectivity for more intricate experimental setups.
Borosilicate Glass (Boro 3.3):
Crafted from premium borosilicate glass, this flask offers superior resistance to thermal shock, high temperatures, and aggressive chemicals, ensuring long-lasting durability even in harsh laboratory environments.
Pear-Shaped Design:
The pear-shaped design maximizes the surface area, allowing for better mixing of reagents, improved heat distribution, and more efficient chemical processes, making it an ideal choice for various heating or distillation applications.
Thermal and Chemical Resistance:
Made from high-quality borosilicate glass, this flask is resistant to high temperatures, thermal shocks, and a broad range of chemicals, making it a reliable option for demanding laboratory experiments.
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Product Highlights:
Enhanced Flexibility with Three Necks:
The three-neck design allows for easy integration with multiple laboratory apparatus, such as condensers, distillation columns, and tubing, enabling complex setups for various chemical processes.
Superior Mixing and Heating Efficiency:
The pear-shaped design ensures optimal mixing of reagents and uniform heat distribution, which is crucial for successful reactions, distillations, and other chemical processes.
Versatile Laboratory Applications:
Whether you are working with chemical reactions, distillation, reflux, or any other laboratory procedure requiring multiple connections, this flask is designed to provide maximum versatility and efficiency.
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Applications:
1. Chemical Reactions: Perfect for complex chemical reactions where multiple connections are required, ensuring an efficient and organized setup.
2. Distillation and Reflux: The three-neck design provides flexibility for integrating condensers, distillation columns, and other components, making it ideal for distillation and reflux operations.
3. Heating and Boiling: The pear-shaped design allows for even heat distribution, making it suitable for heating or boiling reagents under controlled conditions.
4. Pharmaceutical and Analytical Work: Essential for pharmaceutical and analytical chemistry applications that require precise control over reactions and processes.
5. Educational Laboratories: Commonly used in academic settings for teaching complex experiments that involve multiple pieces of laboratory equipment.
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Why Choose the Pear Shaped Flask, Three Necks (One Side Neck at Angle, One Side Neck Parallel)?
Enhanced Versatility: The three-neck design offers flexibility by accommodating a variety of laboratory equipment, making it ideal for experiments requiring multiple connections.
Efficient Mixing and Heating: The pear-shaped design ensures even heat distribution, helping to improve the efficiency of reactions and heating processes.
Durable and Reliable: Made from borosilicate glass, the flask is resistant to thermal shock, high temperatures, and chemicals, providing durability for long-term use in the lab.
Ideal for Complex Processes: Perfect for chemical reactions, distillation, and other processes that require multiple attachments, making it an essential tool for complex laboratory experiments.
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