Plastics Technology

DEC 2018

Plastics Technology - Dedicated to improving Plastics Processing.

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ABOUT THE AUTHOR Mike Sepe is an independent, global materials and processing consultant whose company, Michael P. Sepe, LLC, is based in Sedona, Ariz. He has more than 40 years of experience in the plastics industry and assists clients with material selection, designing for manu- facturability, process optimization, troubleshooting, and failure analysis. Contact: (928) 203-0408 • mike@thematerialanalyst.com. become elevated or residence times become extended, the molded part will be less capable of managing the application demands. In the lab we can measure the stability of a material against oxidation. Using an analytical technique known as differential scanning calorimetry (DSC), we can expose a sample of material to a constant elevated temperature in the presence of oxygen and determine the time it takes for the material to undergo oxidation. The measurement is known as the oxidation induction time (OIT) and the technique was first used to help polymer scientists understand the premature failure of wire insulation in the 1960s. The accompanying graph shows a result from this test. The sudden change in the slope of the plot is associated with the onset of oxidation. This raw material can withstand 77 min of exposure at these conditions before the anti- oxidant package is consumed and the material rapidly fails. If this test is run on parts molded from this material, the result can be used to determine how the process influenced the long-term stability of the material. In practice, we have observed molded parts that retain as much as 75% of the OIT of the raw material. and we have seen parts that preserve as little as 10% of this baseline value. The difference between these two outcomes is related to the thermal history of the process. And the lifetime of the part in the field will be governed to a significant extent by the level of oxidative stability that the part has when it goes into use. This has implications for the use of regrind. Regrind can be expected to exhibit some level of depletion in the antioxidant package. The degree to which this occurs will depend upon the process conditions. Often, I am asked how much regrind should be used or how many times a material can undergo melt processing. The answer is always that it depends upon the thermal stresses the material was exposed to when it passed through the molding process previously. This depletion can also occur while the part is in use. Recently, I reviewed an analysis of a material that had an OIT of 140 min in pellet form. The as-molded parts retained an OIT of 100 min, and parts that had been exposed to a prolonged elevated temperature routine were at 60-70 min. As we move in the direc- tion of using more post-consumer recycled material, it will become increasingly important that we consider the life cycle of the initial product as well as the types of products that we plan to make from the recycled material. It may be neces- sary to reconstitute the stabilizers when producing the regenerated raw material. It has taken us some time to review all the aspects of processing that relate to maintaining the integrity of the polymer. All of these are factors that are not part of most quality plans associated with molding parts. Processors are typically focused on making parts to print at a cycle time that allows them to make a profit. The molecular weight, polymer structure, level of internal stress, and integrity of the reinforcements and additives are seldom considered to be part of the job. Many processors may not even be aware of their role in achieving optimal results in these areas. There are some interesting common strategies in doing so. For example, molecular weight and additive retention are both optimized by running materials at the lower end of the melt-temperature range. Maximizing crystallinity and mini- mizing molded-in stress are both achieved by running higher mold temperatures. Once processors become aware of their role in these matters, they can use this understanding to inform their process- development strategies. The world of plastic products will be a better place for having gone through the learning process. Regrind can be expected to exhibit some level of depletion in the antioxidant package. @plastechmag 27 Plastics Technology M AT E R I A L S

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