Radioactivity of phosphorus implanted TiNi alloy.
- Author:
Xingke ZHAO
1
;
Wei CAI
;
Liancheng ZHAO
Author Information
1. School of Material Science and Engineering, Harbin Institute of Technology, Harbin 150001.
- Publication Type:Journal Article
- MeSH:
Alloys;
chemistry;
Blood Vessel Prosthesis;
Nickel;
chemistry;
Phosphorus Radioisotopes;
chemistry;
Radiation Dosage;
Titanium;
chemistry
- From:
Journal of Biomedical Engineering
2003;20(3):412-414
- CountryChina
- Language:Chinese
-
Abstract:
Exposed to neutron flow, the phosphorus implanted TiNi alloy gets radioactive. This radioactive material is used in vascular stent for prevention and cure of restenosis. Phosphorus implantation is carried out in a plasma immerged ion implantation system, and the dose of phosphorus implantation is in the range of 2-10 x 10(17) cm-2. After ion implantation, the alloy is exposed to the slow neutron flow in a nuclear reactor, the dose of the slow neutron is 1.39-5.88 x 10(19) n/cm2. The radioactivity of the TiNi alloy was measured by liquid scintillation spectrometry and radio-chromic-film dosimetry. The result shows that whether the phosphorus is implanted or not, the TiNi alloy comes to be radioactive after exposure to neutron flow. Just after neutron irradiation, the radiation dose of phosphorus implanted TiNi alloy is about one hundred times higher than that of un-phosphorus implanted TiNi alloy. The radiation difference between phosphorus and un-phosphorus implanted alloy decreases as time elapses. Within three months after neutron irradiation, the average half-decay period of phosphorus implanted TiNi alloy is about 62 days. The radiation ray penetration of phosphorus implanted TiNi alloy is deeper than that of pure 32P; this is of benefit to making radiation uniformity between stent struts and reducing radiation grads beyond the edge of stent.
