This webinar offers an in-depth overview of radiation dosimetry, focusing on essential principles and calibration methods required to maintain measurement traceability. Attendees will gain a comprehensive understanding of how to estimate measurement uncertainty and its application in assessing new product process capability within the radiation process.
Participants will learn about the mathematical models that complement radiation dosimetry and assist in validating changes in irradiators. The session will delve into both the theoretical and practical aspects of dosimetry, providing a robust framework for ensuring accurate and reliable radiation measurements.
The webinar will begin by covering the fundamental principles of dosimetry, including the significance of calibration in maintaining traceability. It will explain the methodologies for estimating measurement uncertainty, a critical component in assessing the precision and reliability of radiation processes. By understanding these principles, participants will be better equipped to apply dosimetry standards to their radiation processes, ensuring consistency and compliance with industry regulations.
In addition to theoretical knowledge, the session will provide practical insights into dosimetry applications. It will explore the use of mathematical models to validate changes in irradiators, helping professionals understand how these models can enhance the reliability of their dosimetry practices. This practical approach will be particularly beneficial for those involved in quality assurance, process validation, and product development, as it provides actionable insights that can be directly applied to their work.
By the end of the webinar, participants will have gained valuable knowledge on maintaining dosimetry standards, ensuring that their radiation processes are precise, reproducible, and compliant with industry regulations. This understanding will empower them to implement effective dosimetry practices, ultimately leading to higher quality and reliability in their radiation-processed products.