热处理对3d打印Ti-64 ELI表面粗糙度和力学性能影响的实验研究

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
L. Lebea, H. Ngwangwa, Dawood Desai, F. Nemavhola
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引用次数: 3

摘要

种植后的初始稳定性对种植体的存活至关重要,而种植体的表面粗糙度在这方面起着至关重要的作用。表面形貌表征是计量学的一个复杂分支,有大量可用的参数。每个参数对三维打印样品的存活和力学性能都有重要的贡献。本文的目的是实验研究三维打印牙种植体和三维打印犬骨拉伸样品的表面粗糙度在面高参数、振幅参数(纵坐标平均值)、偏度参数和力学性能下的影响。实验过程中,对粗糙度值进行了分析,结果表明,偏度参数的最小值为0.59%。三维打印种植体记录的3.4 mm直径评估轮廓的算术平均偏差为43.23%,4.3 mm直径三维打印种植体记录的算术平均偏差为26.18%。具有复杂几何形状的样品显示出更高的表面粗糙度,这是增材制造在评估表面光洁度时的最大困难。结果表明:当极限拉应力从968.35 MPa降低到955.25 MPa时,算术平均偏差增加1.4%;当极限拉应力增加到961.18 MPa时,算术平均偏差增加0.6%;当周期从262,142减小到137,433时,算术平均偏差表明,周期增加不到90.74%。对于三维打印种植体,表面粗糙度越高,机械性能越低,最终导致种植体寿命下降,性能不佳。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental investigation into the effect of surface roughness and mechanical properties of 3D-printed titanium Ti-64 ELI after heat treatment
The initial stability after implantology is paramount to the survival of the dental implant, and the surface roughness of the implant plays a vital role in this regard. The characterisation of surface topography is a complicated branch of metrology, with a huge range of parameters available. Each parameter contributes significantly towards the survival and mechanical properties of three-dimensional printed specimens. The purpose of this paper is to experimentally investigate the effect of surface roughness of three-dimensional printed dental implants and three-dimensional printed dogbone tensile samples under areal height parameters, amplitude parameters (average of ordinates), skewness parameters and mechanical properties. During the experiment, roughness values were analysed, and the results showed that the skewness parameter demonstrated a minimum value of 0.59%. The three-dimensional printed dental implant recorded the arithmetic mean deviation of the assessed profile with a 3.4-mm diameter at 43.23% and the three-dimensional printed dental implant with a 4.3-mm diameter at 26.18%. Samples with a complex geometry exhibited a higher roughness surface, which was the greatest difficulty of additive manufacturing when evaluating surface finish. The results show that when the ultimate tensile stress decreases from 968.35 to 955.25 MPa, the arithmetic mean deviation increases by 1.4%, and when ultimate tensile stress increases to 961.18 MPa, the arithmetic mean deviation increases by 0.6%. When the cycle decreases from 262,142 to 137,433, the arithmetic mean deviation shows that less than a 90.74% increase in the cycle is obtained. For the three-dimensional printed dental implants, the higher the surface roughness, the lower the mechanical properties, ultimately leading to decreased implant life and poor performance.
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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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