The packaging system is crucial in delivering products effectively and securely to users while preserving their integrity. It is utilized across diverse industries, from medical and pharma to FMCG. Imperfect packaging can directly impact the product, packaging integrity and performance requirements, jeopardizing the quality of healthcare users in the medical and pharmaceutical industries. Therefore, it is imperative for the packaging to survive and withstand various hazardous environments, ensuring the security of the product throughout its shelf life.

Thus, qualifying or testing the packages during the design and development phase is beneficial to ensure optimal packaging and efficacy of the package system. Global testing procedures and standards determine how a specific package system will perform when exposed to various real-world environments and requirements. To achieve this, commercial industries collaborate with standalone certified package testing labs to qualify and provide excellent packaging solutions. However, with the availability of numerous packaging performance test methods, picking a suitable test procedure becomes a complex job.

This whitepaper aims to assess the efficiency of drop and vibration test methods by analyzing the amount of stress and energy involved in their testing. It seeks to distinguish the effective drop and vibration test procedures from the globally available variety of ship-test methods and provide a solution to the potential damages that can happen during handling and shipping of these products.

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