Extraction of Antioxidants from High Density Polyethylene (HDPE) By Pressurized Liquid Extraction (PLE)

Introduction
Plastics and other polymers are used in a wide spectrum of applications from industrial usage to packaging, including the packaging of food and pharmaceutical products. To enhance functionality, chemical additives are often added to polymers. These additives enable polymers to be more durable, pliable and make them less subject to degradation. To ensure that the specified amounts of an additive or combination of additives are incorporated into a polymer. After the extrusion process, a rapid and accurate analytical method is required to measure additives and other process by products.

This application note demonstrates the use of pressurized liquid extraction using the FMS PLE system to extract polymer additives for quatitative analysis by HPLC. Four specific additives of known concentrations were extracted from high density polyethylene (HDPE) and the recoveries measured.

Instrumentation and consumables

• FMS, Inc. Pressurized Liquid extraction System
• Thermo Certified GC/MS auto sampler vials
• FMS 5 mL Stainless Steel PLE Cartridge
• FMS Universal Stainless Steel PLE End Caps

Reagents

• Fisher Optima* 2-Propanol
• Fisher Optima* Cyclohexane

Results
Table 1: Dual extractions of HDPE

Sample preparation and PLE procedure
Sample Prep
1. A sample of high density polyethylene was milled to a fine particle size to increase surface area.
2. Duplicate samples of 2 grams each were weighed out and transferred to FMS 5 mL extraction cells and sealed with stainless steel re-usable end caps.
3. Samples were loaded on FMS PLE system.

Pressurized Liquid Extraction
Solvents Mix: 2-Propanol/Cyclohexane (95:5)
Solvent pump rate: 35 mL/min
Pre-heat temperature: 100 °C
Extraction temperature: 120 °C
Extraction time: 20 minutes
Cycles: 3
Total time: 1.5 hours

Conclusions
Analysis of the four antioxidant additives in the HDPE samples demonstrates the FMS PLE system’s ability to generate excellent recoveries for all four compounds (70-130%). The low relative RPDs also de-monstrate the ability to generate con-sistent, reproducible extraction efficiencies between runs.

The advantages of Pressurized Liquid Extraction over traditional Soxhlet extractions are faster analyses (1.5 hours versus 15 hours) and reduced solvent volume (up to 200 mL). This Pressurized Liquid Extraction technique using the FMS PLE extraction system is an ideal method for extracting antioxidant additives from HDPE.

To view the PLE video

PLE Website

www.fmsenvironmental.com