AA is used to estimate the useful lifespan of a product or its shelf life when actual lifespan data is unavailable. The ability of product designers to accurately predict changes in polymer properties is of critical importance to the medical device, consumer, and industrial markets.
Join this Webinar to better understand and start taking advantage of accepted Accelerated Aging Techniques. Understand General Aging Theory - The Simplified Protocol for Accelerated Aging (10 Degree Rule) and Iterative Test Designs.
In order to design a test plan that accurately models the time correlated degradation of polymers, it is necessary to have an in-depth knowledge of materials composition and structure, end product use and mis-use, assembly and sterilization process effects. Basic polymer chemistry will be reviewed as well as the changes in polymer characteristics that can be anticipated and designed for. Learn how to plan for post-production and lifetime functionality.
Why You Should Attend: Accurate prediction of product shelf-life performance is critical to your success. 'Do it right the first time', choose the most functional and resistant materials for your product instead of going through the post launch cycle of panic driven product revisions. Also learn the basis for choosing the optimum accelerated test design based on materials, product design, processing, and functional product requirements. Learn how to 'think like a molecule' and plan and design around 'aging' induced changes in materials qualities (brittleness, color, and odor) that cut short your product's long term functionality. The understanding of a product's long term safety and efficacy is a must in today's litigious world.
Learn how to:
Understand the design and use of accelerated aging programs to shorten development time
Identify the materials that perform best in 'stressful' environments
Effects of processing (molding, assembly)
Enhance product and packaging designs
Product Design features to avoid
Areas Covered in the Session:
Shelf Life Test Methods - Accelerated Aging Test Design - Modeling
General Aging Theory - Simplified Protocol
Accelerated Aging Test Designs
Polymers Chemistry - choosing the best polymer candidate
Product Validation and Verification (ISO9001)
Regulatory (i.e. FDA) Acceptance and Legal Considerations
Determining Useful Product Life - from Consumer or medical Products to Atomic Reactors
What time periods and what accelerated stresses to target
Reaction Rate Coefficient, Zero and First Order, Q10 = 2; Arrhenius function
Enhanced Test Designs i.e. Iterative Test Design
Materials Guidances - AAMI TIR # 17, ASTM
Product design - Features to Avoid
The influences of product assembly (molding, automation, etc.)
Packaging Design and Materials
Quantitative vs Qualitative Test Attributes - Statistical Analysis
Environmental test Limits
Worst Case Testing - Achilles Heel
'Ambient' or actual product storage and use conditions
Significance in Differences in Coefficients of Expansion
Commonly used stressors - Temperature, Irradiation, Chemicals, Humidity
Karl J. Hemmerich,