Mass spectrometric assay of high radiopurity solid polymer materials for parts in radiation and rare event physics detectors

Abstract

Abstract Plastic dielectric materials are required in radiation and rare event physics detectors as structural parts, insulators, seals, light reflectors, and in connectors. In order to observe events of interest rather than counting the radioactivity of the detector itself, these materials must be of high radiopurity. Using a mass spectrometric method, a number of solid plastic materials and parts were analyzed for mass levels of contaminants 232 Th and 238 U, which were used as an assessment of radiopurity. Sample preparation began with dry ashing the solid subsamples in very low mass containers of ultra low background electroformed copper (ULB EF-Cu) foil that had been cut and folded into boats serving as crucibles. Final determinations were carried out by inductively coupled plasma mass spectrometry (ICP-MS) with liquid nebulization sample solution introduction. Sample sizes were in the 25 mg to 1.25 g mass, and analyses could be completed in less than two days. Detection limits to pg/g (i.e, parts per trillion) levels are obtained and converted to radioactivity units μ Bq/kg of material. Determinations on poly(methyl methacrylate) (PMMA) gave values for 238 U below 10 μ Bq/kg, while values for poly(chlorotrifluoroethylene) (PCTFE) rod stock material or acid-leached machined PCTFE parts were at or below 50 μ Bq/kg in 238 U. Results for solid Purad poly(vinylidene fluoride) (PVDF) material are also reported at ca 5 mBq/kg of 238 U, although PVDF Solef 1010 raw material in powder and pellet form has been previously reported as low as 25 μ Bq/kg, and 200 μ Bq/kg 238 U, respectively. An analysis of a polyetherimide (PEI) material, sold as ULTEM, indicated promising radiopurity with a found value of 30 μ Bq/kg for 238 U. A variety of solid dielectric polymer materials were found with radiopurities at less than a mBq/kg 238 U and 232 Th.