The 11mm crimp top vial is a specialized container designed for analytical applications in various industries. These vials are essential for ensuring the integrity of sample substances during storage and analysis. With a precise 11mm diameter at the top, these vials are compatible with a range of crimping tools and instruments.
There are several types of 11mm crimp top vials, each made from different materials to suit specific analytical needs. Common materials include glass and various plastics, with glass being preferred for its chemical inertness and plastic for its durability. The choice between type I borosilicate glass, type II soda-lime glass, and polymeric materials hinges on the nature of the sample and the required chemical resistance.
The features of 11mm crimp top vials include non-spill and pilfer-proof designs, ensuring samples are secure and contamination is minimized. These vials are widely used in gas chromatography (GC) and high-performance liquid chromatography (HPLC) due to their ability to withstand high pressures and maintain sample purity. The non-refillable nature of these vials also makes them suitable for high-precision testing environments.
Utilizing 11mm crimp top vials offers several advantages, such as enhanced sealing properties and compatibility with automated systems. The crimp top design provides a robust seal, which is crucial for maintaining the integrity of the sample during both storage and analysis. This seal prevents evaporation and contamination, which are critical factors in achieving accurate analytical results.
When selecting an 11mm crimp top vial, it is important to consider the compatibility with specific capping machines and the type of seals used. The material of the vial should be chosen based on the chemical properties of the sample and the required thermal and chemical resistance. Additionally, the vial's design should align with the specific requirements of the analytical instrument.
In line with environmental safety standards, 11mm crimp top vials are designed to be safe and reliable for both the user and the environment. The manufacturing of these vials takes into account eco-friendly practices, and the materials used are often recyclable, reducing the ecological footprint of analytical processes.