Skip to content 
Water Resistance Testing of Glass Containers: Powdered Glass vs. Surface Hydrolytic Test
In the pharmaceutical industry, glass containers are widely used for injectable drugs and sensitive formulations due to their chemical stability and transparency. However, their internal surface water resistance is critical to prevent leachable ions from compromising drug quality.
To assess this, two standard methods are commonly used:
1. Powdered Glass Test
This method evaluates the bulk hydrolytic resistance of the glass. Containers are crushed, exposed to purified water, and tested for alkali leaching.
Key Benefits:
Tests the intrinsic glass composition
Useful for material classification (e.g., Type I, II, III)
Limitations:
Destructive
Doesn’t reflect surface treatments from manufacturing
2. Surface Hydrolytic Resistance Test
Also known as the Etching Method, this test uses whole containers filled with water, heated, and analyzed for leachables from the inner surface.
Key Benefits:
Evaluates real-world surface conditions
Reflects manufacturing impact (annealing, treatment)
Required by pharmacopeias for QC and registration
Limitations:
Cannot assess raw materials
Requires strict test controls
Comparison Overview
| Factor | Powdered Glass Test | Surface Hydrolytic Test |
|---|---|---|
| Sample Type | Crushed glass | Whole container |
| Focus | Bulk material | Internal surface |
| Use Case | Glass classification | Container quality control |
| Destructive | Yes | No |
| Surface Treatment Info | No | Yes |
Both tests are essential for assessing the water resistance of pharmaceutical glass containers. The Powdered Glass Test is ideal for classifying glass types, while the Surface Hydrolytic Test offers insights into the container’s real-world performance. Choosing the right method ensures regulatory compliance, drug stability, and packaging reliability.
