1. Optimizing Electron‐Beam Photothermal Pyrolysis Parameters for Enhanced Molecular Biodegradability of Polyvinyl Chloride Plastics.
- Author
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Porandla, Rishika
- Subjects
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MATERIALS science , *MOLECULAR weights , *MOLECULAR beams , *POLYVINYL chloride , *GOLD nanoparticles , *PHOTOTHERMAL effect , *ELECTRON beams - Abstract
Polyvinyl chloride (PVC), a synthetic plastic notable for harmful emissions during deterioration, has potential to be molecularly adjusted by photo‐oxidative ultraviolet degradation. This research investigates the influence of electron beam irradiation and near‐infrared photothermal treatment utilizing gold nanoparticles to establish the optimized molecular weight and beam time exposure for biodegradable PVC properties while maintaining a minimum tensile strength as measured through the ratio of peak tension force by cross sectional area. PVC powder samples with number‐average molecular weights ranging from 20.0 to 90.0 kDa and varying exposure times of a 100 kGy electron beam from 80 to 115 ms are employed for the study. Outcomes from PVC irradiation reveal the optimal parameters for inducing biodegradability in samples: an e‐beam exposure duration of 95 ms applied to PVC powder with a sample molecular weight of 20.0 kDa. Analysis of the ratio of number average molecular weight Mn$ {{M}_{\mathrm{n}}} $ and weight average molecular weight Mw$ {{M}_{\mathrm{w}}} $ demonstrates that shorter irradiation durations result in lower molecular weights and molecular weight is directly proportional to
T g and crystallinity. Future work aims to scale up the procedure to industrial applications and investigate the treatment's applicability to a variety of thermoplastics. [ABSTRACT FROM AUTHOR]- Published
- 2024
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