MECHANICAL PROPERTIES MODELING OF SEVERELY PLASTICALLY DEFORMED BIODEGRADABLE ZK60 MAGNESIUM ALLOY FOR BONE IMPLANTS

YAN  ZHANG; NING  WANG; JINGYI LI; MOHSEN  MESBAH; KUAN YEW  WONG; ALIREZA  FALLAHPOUR; BAHMAN  NASIRI-TABRIZI; JIANGFEI YANG

doi:10.1590/1679-78256151

Authors

YAN ZHANG DEPARTMENT OF TRAUMA ORTHOPEDICS, SHANDONG PROVINCIAL HOSPITAL AFFILIATED TO SHANDONG UNIVERSITY, JINAN, SHANDONG PROVINCE, 250000, CHINA. HTTPS://ORCID.ORG/0000-0001-7202-9900
NING WANG DEPARTMENT OF MEDICAL IMAGE, SHANDONG PROVINCIAL HOSPITAL AFFILIATED TO SHANDONG UNIVERSITY, NO.324 JINGWU ROAD, HUAIYIN DISTRICT, JINAN, SHANDONG 250000, CHINA. HTTPS://ORCID.ORG/0000-0002-0104-4633
JINGYI LI OPERATION ROOM, THE AFFILIATED HOSPITAL OF QINGDAO UNIVERSITY, HUANGDAO DISTRICT, QINGDAO, SHANDONG PROVINCE, 266000, CHINA. HTTPS://ORCID.ORG/0000-0001-7234-2542
MOHSEN MESBAH DEPARTMENT OF MECHANICAL ENGINEERING, FACULTY OF ENGINEERING, UNIVERSITY OF MALAYA, 50603 KUALA LUMPUR, MALAYSIA. HTTPS://ORCID.ORG/0000-0002-2380-0137
KUAN YEW WONG SCHOOL OF MECHANICAL ENGINEERING, UNIVERSITI TEKNOLOGI MALAYSIA, 81310 SKUDAI, MALAYSIA. HTTPS://ORCID.ORG/0000-0002-2944-6749
ALIREZA FALLAHPOUR SCHOOL OF MECHANICAL ENGINEERING, UNIVERSITI TEKNOLOGI MALAYSIA, 81310 SKUDAI, MALAYSIA. HTTPS://ORCID.ORG/0000-0001-7841-2513
BAHMAN NASIRI-TABRIZI SCHOOL OF BIOSCIENCES, FACULTY OF HEALTH AND MEDICAL SCIENCES, TAYLOR’S UNIVERSITY, SUBANG JAYA, MALAYSIA. HTTPS://ORCID.ORG/0000-0003-0459-7169
JIANGFEI YANG DEPARTMENT OF MEDICAL IMAGE, SHANDONG PROVINCIAL HOSPITAL AFFILIATED TO SHANDONG UNIVERSITY, NO.324 JINGWU ROAD, HUAIYIN DISTRICT, JINAN, SHANDONG 250000, CHINA";} HTTPS://ORCID.ORG/0000-0001-7202-9900

DOI:

https://doi.org/10.1590/1679-78256151

Abstract

MAGNESIUM (MG) AND ITS ALLOYS CAN BE UTILIZED IN BONE REGENERATION PROTOCOLS OWING TO THEIR MECHANICAL ROBUSTNESS, IN SITU DEGRADATION, AND CAPABILITY OF MOTIVATING THE GENERATION OF NEW BONES. HERE, SOME DRAWBACKS OF MG-BASED ALLOYS, I.E. THE YIELD STRENGTH (Σ_YS) AND ULTIMATE TENSILE STRENGTH (Σ_UTS), WERE ADDRESSED MOSTLY THROUGH PARALLEL TUBULAR CHANNEL ANGULAR PRESSING (PTCAP). IN VIEW OF THE MULTIFACETED VARIABLES OF THE PTCAP WITH NONLINEAR INTERACTIONS, A PRECISE DETERMINATION OF THE MATERIAL PROPERTIES REQUIRES A LARGE NUMBER OF EXPERIMENTS, WHICH INCREASES THE PROCESSING TIME AND COSTS. THEREFORE, IN THE PRESENT RESEARCH, TWO MACHINE LEARNING (ML)-BASED MODELS WERE DEVELOPED TO ACHIEVE APPROPRIATE COMBINATIONS OF MECHANICAL PROPERTIES FOR BONE IMPLANT PURPOSES. SPD METHOD, NUMBER OF THE PASS, AND PROCESSING TEMPERATURE WERE THE THREE INPUT PARAMETERS CONSIDERED IN THE CREATION OF THE MODELS TO ASSESS Σ_YS, Σ_UTS, AND ELONGATION TO FAILURE (Δ) OF THE PROCESSED ALLOYS, WHERE THE PERFORMANCE OF MODELS WAS EVALUATED IN TERMS OF CORRELATION COEFFICIENT (R), THE MEAN SQUARED ERROR (MSE), AND THE MEAN ABSOLUTE ERROR (MAE). THE RESULTS OF MODELING VERIFIED THAT THE PROPOSED GENE EXPRESSION PROGRAMMING (GEP) AND GENETIC PROGRAMMING (GP) MODELS WERE CAPABLE OF PRECISELY PREDICTING THE MECHANICAL PERFORMANCE OF THE SPD-PROCESSED BIODEGRADABLE ZK60 MG ALLOY FOR ORTHOPEDIC APPLICATIONS.

MECHANICAL PROPERTIES MODELING OF SEVERELY PLASTICALLY DEFORMED BIODEGRADABLE ZK60 MAGNESIUM ALLOY FOR BONE IMPLANTS

Authors

DOI:

Abstract

Downloads

Published

Issue

Section

License