Stopcock, Oblique Bore With Solid Plug, Side Capillary

Description

The Stopcock, Oblique Bore with Solid Plug and Side Capillary is a precision laboratory valve designed for regulating the flow of liquids or gases in applications requiring an angled flow path and the introduction of additional fluids or gases via a side capillary. This stopcock is commonly used in experiments such as distillation, titration, and gas absorption, providing enhanced control and versatility in scientific research and laboratory processes.

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Key Features

1. Oblique Bore Design:
The oblique bore offers an angled flow path that facilitates precise control over the flow of liquids or gases. This design is ideal for experiments requiring the manipulation of fluids in an angled setup.

2. Solid Plug:
The solid plug ensures a tight seal, preventing leaks and ensuring secure operation during experiments. This feature is crucial in handling volatile or hazardous chemicals.

3. Side Capillary:
The inclusion of a side capillary allows for the addition of gases or liquids to the system during operation, offering greater flexibility in experiments that require simultaneous handling of multiple components.

4. High Durability and Chemical Resistance:
Typically constructed from borosilicate glass or PTFE, the stopcock is resistant to a wide range of chemicals, heat, and abrasion, ensuring reliable performance even in demanding environments.

5. Leak-Proof Performance:
The solid plug ensures that the stopcock remains securely sealed, preventing leaks and maintaining the integrity of the experiment.

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Product Highlights

Angled Flow Path:
The oblique bore allows for efficient flow control in angled setups, making it ideal for complex laboratory procedures that require precise regulation of liquid or gas flow.

Side Capillary for Additional Flow Control:
The side capillary enables the introduction of additional gases or liquids, making it useful for experiments requiring multiple inputs or the addition of reagents during the process.

Leak-Proof and Secure:
The solid plug ensures that the stopcock remains tightly sealed, preventing leaks and maintaining the accuracy and safety of the experiment.

Durable and Resistant to Harsh Environments:
Made from borosilicate glass or PTFE, the stopcock is highly chemical-resistant and heat-resistant, ensuring long-lasting performance in demanding laboratory conditions.

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Applications

1. Titration:
The oblique bore design allows for controlled release of liquids during titration, ensuring accurate and precise results in volumetric analysis.

2. Distillation and Fractionation:
The side capillary is ideal for introducing additional gases or liquids during distillation or fractionation, providing flexibility in handling multiple phases.

3. Gas and Liquid Flow Regulation:
The side capillary allows for the introduction of reagents, gases, or liquids into the system, making it useful in gas absorption, chemical reactions, and adsorption processes.

4. Absorption and Adsorption:
The stopcock is often used in absorption and adsorption experiments where gases or liquids are introduced at specific stages, allowing precise control over the experimental conditions.

5. Chemical Reactions and Mixing:
The side capillary provides additional connection points for introducing gases or reagents during chemical reactions or mixing processes.

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Why Choose the Stopcock, Oblique Bore with Solid Plug, Side Capillary?

Optimized for Specific Fluid Flow Needs:
The oblique bore design allows for more precise flow control in experiments that require fluid movement at an angle, such as distillation and titration.

Side Capillary for Versatile Fluid Handling:
The side capillary enables the introduction of gases or additional liquids, offering flexibility in experiments that involve multiple components or phases.

Leak-Proof and Secure Operation:
The solid plug ensures that the stopcock remains securely sealed, preventing leaks during experiments and offering accurate and safe fluid control.

Durable and Resistant to Harsh Environments:
Constructed from high-quality materials such as borosilicate glass or PTFE, the stopcock is both chemically resistant and heat-resistant, ensuring long-lasting durability in demanding laboratory conditions.

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Technical Specifications

Material: Borosilicate glass, PTFE, or other chemically resistant materials.

Bore Diameter: Available in common sizes such as 3 mm, 6 mm, or 12 mm.

Side Capillary Diameter: Typically around 3 mm to 5 mm, depending on the model.

Socket and Cone Compatibility: Compatible with standard laboratory glassware such as 14/23, 24/29, or other fittings.

Operating Temperature Range: Suitable for laboratory conditions, generally up to 300°C for borosilicate glass.

Seal Type: Solid plug with side capillary for additional connections