20240009079. GLASS CONTAINER WITH INCREASED BREAKAGE RESISTANCE simplified abstract (SCHOTT Pharma AG & Co. KGaA)
Contents
GLASS CONTAINER WITH INCREASED BREAKAGE RESISTANCE
Organization Name
Inventor(s)
Andreas Langsdorf of Ingelheim (DE)
Florian Maurer of Griesheim (DE)
Ina Syndikus of Darmstadt (DE)
Alexander Humbertjean of Bad Krozingen (DE)
GLASS CONTAINER WITH INCREASED BREAKAGE RESISTANCE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240009079 titled 'GLASS CONTAINER WITH INCREASED BREAKAGE RESISTANCE
Simplified Explanation
The abstract of the patent application describes a glass container with a body region, two ends, and a longitudinal axis passing through the center of the ends. The container has a specific distance between the support surface and the second end when standing upright. The condition (a×x)/b=c is fulfilled, where a is the axial load required to break the container, x is a normalized area, b is the number of fragments, and c is the fracture ratio. The fracture ratio is 40+n×cm or more, and the number of fragments is 30 or more.
- The glass container has a specific design and dimensions to ensure it breaks into a desired number of fragments when subjected to an axial load.
- The container's body region has a specific outer diameter and thickness, and the longitudinal axis passes through the center of the ends.
- The distance between the support surface and the second end of the container is important for achieving the desired fracture ratio.
- The condition (a×x)/b=c ensures that the container meets the required fracture ratio and number of fragments.
Potential applications of this technology:
- Packaging industry: Glass containers that break into a specific number of fragments can be used for packaging fragile items, ensuring safety during transportation.
- Recycling industry: Glass containers that break into a desired number of fragments can be easily recycled and processed.
Problems solved by this technology:
- Safety: The glass container design ensures that it breaks into fragments rather than sharp shards, reducing the risk of injury.
- Efficiency: The specific fracture ratio and number of fragments allow for easier recycling and processing of the glass containers.
Benefits of this technology:
- Improved safety: The container design reduces the risk of injury by preventing the formation of sharp shards.
- Enhanced recyclability: The glass containers can be easily recycled and processed due to their specific fracture characteristics.
- Cost-effective: The technology allows for efficient production and recycling processes, reducing costs in the packaging and recycling industries.
Original Abstract Submitted
a glass container includes a body region with a first end and a second end, the body region having an outer diameter (d) and a glass thickness (s), the body region being characterized by a longitudinal axis (l) that passes through a center of the first and second end. when the glass container is standing on a support surface, his the distance between the support surface up to the second end of the body region. the following condition is fulfilled: (a�x)/b=c. a is an axial load necessary to break the glass container to obtain fragments, x is a normalized area in cmdefined as h�d��+d/4��, b is a number of fragments of the glass container, and c is a fracture ratio. c is 40 n�cmor more and b is 30 or more.
