Microwave-induced combustion of high purity nuclear flexible graphite for the determination of potentially embrittling elements using atomic spectrometric techniques

Microwave-induced combustion was evaluated for the digestion of high purity nuclear flexible graphite for further determination of potentially embrittling elements (Ag, As, Bi, Cd, Ga, Hg, In, Pb, Sb, Sn and Zn) using atomic spectrometric techniques. Flexible graphite is obtained by exfoliation process of conventional graphite using oxidant agents and subsequent fast heating at high temperatures. Thus, high chemical inertness for specific purposes is attained which causes inertness also to conventional digestion methods. Microwave-assisted digestion method using maximum temperature and pressure of 275°C and 180bar (UltraWave™ system) respectively, and dry ashing were also evaluated for flexible graphite digestion. However, insoluble residues in final digests and analyte losses were observed for those methods, respectively. For microwave-induced combustion method, the use of cellulose pellet (300mg) as combustion aid allowed the efficient oxidation of 100mg of flexible graphite. In order to assure the quantitative recovery of all analytes after microwave-induced combustion two absorbing solutions should be used: 4molL−1 HNO3 for Ag, As, Cd, Ga, Hg, In, Pb, and Zn and inversed aqua regia for Bi, Sb and Sn. As flexible graphite (or similar matrix) is not available as certified reference material, accuracy was evaluated using coal (NIST 1632c and BCR 40). For all elements, except for In (not informed in certified reference materials), significant differences were not observed by comparing the results obtained by microwave-induced combustion and certified values (t test, 95% confidence level). Limits of detection using inductively coupled plasma optical emission spectrometry and chemical vapor generation atomic absorption spectrometry (only for Hg) were lower than 12mgkg−1 and in compliance with the recommendation of General Electric for nonmetallic materials (the limit for each element is 200mgkg−1 and the sum of all embrittling elements should be lower than 500mgkg−1). Microwave-induced combustion method was suitable for quality control of high purity nuclear flexible graphite.