Medium borosilicate glass bottles are engineered products known for their resilience and versatility, making them essential in both laboratory and everyday applications. This type of glass composition typically includes silica and boron trioxide, granting the bottles high thermal shock resistance, low expansion, and excellent chemical durability.
Material Properties
Medium borosilicate glass boasts a wide operating temperature range, allowing it to endure sudden temperature shifts without breaking. Commonly tested under ASTM E438 and ISO 3585 standards, these bottles can withstand temperatures between 196°C and 500°C. As a result, they are ideal for processes involving both freezing and boiling without compromising structural integrity.
Chemical Compatibility
Borosilicate glass exhibits exceptional resistance to chemical corrosion, including acids, bases, and solvents. This characteristic is especially important for laboratory usage, where chemical interactions can compromise sample integrity. The material conforms to FDA and USP standards, ensuring safety and compliance for food and pharmaceutical applications.
Design and Functionality
Medium borosilicate glass bottles come in various designs, ranging from narrow to widemouth openings, each suited for specific uses. They may feature reinforced necks, labgrade closures, and labeling options for ease of use in research or manufacturing settings. The design often incorporates ergonomic shapes to facilitate gripping and pouring.
Manufacturing Standards
The production of medium borosilicate glass bottles adheres to rigorous manufacturing standards such as ISO 9011 for quality management systems. Each bottle undergoes inspections for durability, clarity, and thermal resistance to meet industry benchmarks. Additionally, they are often produced in facilities that comply with environmental standards, reducing the ecological footprint of manufacturing processes.
Applications
These bottles find applications in various fields, from scientific laboratories to culinary arts. Their ability to safely store volatile substances makes them invaluable in laboratories, while their aesthetic appeal and functional design allow for use in kitchens and dining environments.
Safety and Handling
Despite their resilience, it is essential to handle medium borosilicate glass bottles with care to avoid physical impact leading to breakage. Safety protocols recommend the use of secondary containment when storing hazardous materials to minimize risk. Proper cleaning procedures involving nonabrasive materials will preserve their surface quality over time.
In summary, medium borosilicate glass bottles are designed to meet specific standards that ensure safety, durability, and versatility across various applications. Their unique properties make them suitable for both scientific endeavors and everyday use, aligning with industry standards to deliver reliable performance.