APA
O'Dwyer Lancaster-Jones O., Williams S., Jennings L. M., Thompson J., Isaac G. H., Fisher J. & Al-Hajjar M. (20190827). An in vitro simulation model to assess the severity of edge loading and wear, due to variations in component positioning in hip joint replacements. : Journal of biomedical materials research. Part B, Applied biomaterials.
Chicago
O'Dwyer Lancaster-Jones O, Williams S, Jennings L M, Thompson J, Isaac G H, Fisher J and Al-Hajjar M. 20190827. An in vitro simulation model to assess the severity of edge loading and wear, due to variations in component positioning in hip joint replacements. : Journal of biomedical materials research. Part B, Applied biomaterials.
Harvard
O'Dwyer Lancaster-Jones O., Williams S., Jennings L. M., Thompson J., Isaac G. H., Fisher J. and Al-Hajjar M. (20190827). An in vitro simulation model to assess the severity of edge loading and wear, due to variations in component positioning in hip joint replacements. : Journal of biomedical materials research. Part B, Applied biomaterials.
MLA
O'Dwyer Lancaster-Jones O, Williams S, Jennings L M, Thompson J, Isaac G H, Fisher J and Al-Hajjar M. An in vitro simulation model to assess the severity of edge loading and wear, due to variations in component positioning in hip joint replacements. : Journal of biomedical materials research. Part B, Applied biomaterials. 20190827.