The analysis of the molar mass distribution of polyethylene and polypropylene resins by GPC/SEC has always been considered a demanding task because of the requirement of high temperature operation for dissolution and complex hardware design, which often results in high maintenance cost, in particular related to the autosampler/injector and detector units, and in other problematic and consuming tasks such as solvent handling added to column fragility, sample degradation or detector sensitivity–stability.
All those considerations were kept in mind in the design of a new high temperature GPC instrumentation.Instrumentation and Experimental
The analyses are performed in a newly developed modular GPC instrument from Polymer Char, the GPC-IR, which consists of a main body, an autosampler and a pump.
The main body incorporates two ovens, preventing the columns from suffering during maintenance tasks and, therefore, extending their life; an Agilent GC oven is used for the columns, which can be independently heated up to 220 °C with a temperature control of 0.01 °C. On top of the columns' oven, there is a separate oven, where injector and detectors are located. This design allows preventive maintenance to be performed and the loop volume to be changed without affecting the columns' temperature.
The autosampler is a separate unit with 70 vials of 10 mL attached to the detectors/injector oven through a heated interface. The vials are filled automatically before entering for the dissolution process into a small heated carousel oven. After dissolution time (different dissolution times can be selected for each sample), the sample is automatically filtered meanwhile filling the loop before injection. Vials stay in this carousel oven just the needed time for dissolution, before injection, to minimize sample oxidation.
Additionally, optional nitrogen purging of the vial can be used to prevent further oxidation. Dissolution is facilitated with a gentle shaking of the vial to prevent shear degradation. Up to 3 injections can be performed in the same vial without any dilution among injections.
The concentration detector used is an infrared detector, which is very appropriate for polyolefin analysis as per its demonstrated high sensitivity for this kind of polymers, as well as fast baseline stabilization. Additionally, by incorporating a second wavelength sensor to the same detector, concentration and composition are measured simultaneously, as the number of branches per 1000C (optionally, a carbonyl sensor can be used for the composition distribution of EVA or EAA resin analysis).
For triple detector GPC analysis, the light-scattering detector HELEOS from Wyatt is easily incorporated on the right side, as well as a four capillary viscometer integrated in the injector/detectors oven.
The analyses have been performed with trichlorobenzene stabilized with 300 ppm of BHT at 1 mL/min as solvent. A sample solution of 18 mg in 9 mL and injection of 200 μL is used with integrated filtration and automated backflush inside the injector/detector oven. Three columns (30 cm each with 13 μm particles packing) were used at 150 °C. Injector/detectors oven temperature was set at 160 °C.