2019
DOI: 10.4028/www.scientific.net/jbbbe.41.37
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Investigation of Mechanical Behaviour of the Bone Cement (PMMA) under Combined Shear and Compression Loading

Abstract: Generally, implants fixations in orthopedic surgery are insured by bone cement; which is generated mainly from polymer polymethylmethacrylate (PMMA). Since, the cement is identified as the weakest part among bone-cement-prosthesis assembly. Hence, the characterization of mechanical behaviour is of a crucial requirement for orthopaedic surgeon’s success. In this study, we investigates the failure behaviour of bone cement, under combined shear and compression loading, for the aim to determine the strengths of bo… Show more

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Cited by 12 publications
(12 citation statements)
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“…For instance, bone cements based on PMMA have a strain to failure of ≈1%. 57,58 Additionally, the materials containing Mg and Zn have an elastic modulus in the range of 100-300 MPa after 8 weeks, which is in the range of mandibular trabecular bone ≈200 MPa and therefore could be considered as viable options for bone repair in that anatomical location. 59 Regardless of the presence of Mg and Zn particles, the materials did not present changes in their excellent biocompatibility.…”
Section: Discussionmentioning
confidence: 99%
“…For instance, bone cements based on PMMA have a strain to failure of ≈1%. 57,58 Additionally, the materials containing Mg and Zn have an elastic modulus in the range of 100-300 MPa after 8 weeks, which is in the range of mandibular trabecular bone ≈200 MPa and therefore could be considered as viable options for bone repair in that anatomical location. 59 Regardless of the presence of Mg and Zn particles, the materials did not present changes in their excellent biocompatibility.…”
Section: Discussionmentioning
confidence: 99%
“…The shear stress obtained with − 3°, − 2° and 0° configurations is below 1% of the total stress, which is therefore negligible; the − 5° and 5° configurations, on the other hand, present values of shear stress up to 5% which therefore make these slopes potential causes of complications as shear stress represents one of the main risks leading to bone fractures [32]. This is indeed of paramount importance to take in consideration also in terms of bone-prosthesis interface: in this study only an uncemented model was analysed (and therefore high values of shear stress can lead to implant loosening as a consequence of bone failure), but the increase of this stress component can lead to issues also in case of cemented implants, since also cement presents lower mechanical properties in terms of shear [33].…”
Section: Discussionmentioning
confidence: 99%
“…The mechanical behaviors of PMMA cement are much stronger in compression than in tension when compared with cortical bones. 19,20 The application of the cement is well suited in the periacetabular weight-bearing region, where exposure to tensile stress is limited.…”
Section: Discussionmentioning
confidence: 99%