数控铣削加工参数对超高分子量生物材料表面粗糙度的影响

International Journal of Research in Engineering and Technology Pub Date : 2018-10-25 DOI:10.15623/ijret.2018.0710011

B. .

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引用次数: 0

摘要

超高分子量聚乙烯(UHMWPE)是一种塑料生物材料，已经在生物医学领域应用了几十年。这种材料通常是用机械加工工艺生产的。其中一个过程是铣削操作。这种方法需要与更常见的车削操作一起使用，因为有许多植入物设计不是几何上的圆柱形。铣削过程像任何其他加工技术一样，需要操作者设定一定的加工参数值来实现特定的目标。其中之一是材料的表面粗糙度。当由超高分子量聚乙烯制成的植入物在人体中使用时，人们怀疑粗糙的机械表面会滋生更多的细菌。研究了进给速度和切削深度对超高分子量聚乙烯表面粗糙度的影响。在西门子数控机床上对超高分子量聚乙烯生物材料进行铣削加工，可以产生更好的表面光洁度。四个进给量值之间的0.2毫米/转。0.025毫米/转。并对0.2 mm至0.05 mm的三种切口深度进行了评价。第三个加工参数，即切削速度定在150 m/min。刀具为高速钢立铣刀。达到最小表面粗糙度低于2微米。建立了多元回归模型，指导机床操作人员确定合适的加工参数。通过统计试验得出，进料速率是影响最大的参数。必须设置为0.05 mm/rev。或更低的目的，以获得更高质量的表面光洁度。

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EFFECTS OF CNC MILLING MACHINING PARAMETERS ON THE SURFACE ROUGHNESS OF UHMWPE BIOMATERIAL

Ultra High Molecular Weight Poly Ethylene (UHMWPE) is a plastic biomaterial developed and had been used for decades in biomedical applications. This material is commonly produced with machining processes. One of those process is the milling operation. This method is needed alongside with the more common turning operation since there are many implant designs are not geometrically cylindrical. The milling process like any other machining techniques requires the operators to set certain machining parameter values to achieve specific objectives. One of these is the surface roughness of the materials. Rough machined surfaces were suspected to harbor more bacteria when the implant products made from UHMWPE are being used inside the human body. This study tested the influences of feed rate and depth of cut machining parameters on the UHMWPE surface roughness. The milling machining process with a SIEMENS CNC machine on the UHMWPE biomaterial was proved capable to produce better surface finish qualities. Four feed rate values between 0.2 mm/rev. to 0.025 mm/rev. and three depth of cuts from 0.2 mm down to 0.05 mm were evaluated. Third machining parameter, i.e. cutting speed was set constant at 150 m/minute. The tool is the high speed steel end milling. Achieved minimum surface roughness was found below 2 microns. A multiple regression model was developed to guide the machine tool operators to determine proper machining parameters. Statistical tests conducted and it can be concluded that feed rate is the most influential parameter. It must be set 0.05 mm/rev. or lower in the purpose to obtain higher quality surface finish.

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International Journal of Research in Engineering and Technology

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