CIONE, FRANCISCO C.SOUZA, ARMANDO C. deSENE, FRANK F.RIZZUTTO, MARCIA de A.ROSSI, JESUALDO L.2017-05-082017-05-08CIONE, FRANCISCO C.; SOUZA, ARMANDO C. de; SENE, FRANK F.; RIZZUTTO, MARCIA de A.; ROSSI, JESUALDO L. A Study of Production of Tungsten Copper Alloy by Powder Metallurgy, Applied to Radioactive Shielding of Transport Equipment for Pharmaceutical Products. In: EURO PM2015 CONGRESS & EXHIBITION - POWDER METALLURGY FOR CURRENT AND FUTURE APPLICATIONS, September 4-7, 2014, Reims, France. <b>Proceedings...</b> Disponível em: http://repositorio.ipen.br/handle/123456789/27418.http://repositorio.ipen.br/handle/123456789/27418Safety is of paramount importance for the storage and transportation of radiopharmaceutical products, being directly dependent on the radiation shielding material used in specific devices. The focus of present work, part of a larger project, is to minimize the use of harmful materials, as lead and depleted uranium, in such devices construction. The radioactive energy reduction varies according to density of material used as shielding. Because Tungsten has a high density and, implicitly, good shielding properties without to be harmful, but has poor workability, researches were focused on Tungsten - copper heavy alloys. The objective of the performed research was the optimization of alloy composition in order to achieve the best linear absorption coefficient. The studied compositions were 15, 20 and 25 wt.% copper. The linear absorption coefficient was similar either for the green and sintered compacts, thus the porosity level did not have measurable effect on the radiation attenuation.openAccessradiopharmaceuticalstransporttungstencoppertransport regulationspowder metallurgysinteringradiation absorption analysisshielding materialsTexto completo de eventohttps://orcid.org/0000-0002-8304-9939