本實驗將316 不銹鋼長絲進行電漿滲氮(Plasma Nitriding)處理及聚乳酸(PLA)複絲行鹼處理,使其表面粗糙化,並以十六錠編帶機將其製成316 /聚乳酸編織物,之後將316 /聚乳酸編織物浸置於電鍍液(模擬體液 Simulated Body Fluid, SBF)中,並固定於陰極電極上,施以不同電流和不同時間來加速氫氧基磷灰石(Hydroxyapatite, HA)的生成。並利用掃描式電子顯微鏡觀察表面形態、X 光繞射儀進行結晶繞射分析。又在電化學處理30 分鐘後重量有增加趨勢,從文獻中可得知電化學30 分鐘後浸泡模擬體液15 天後即可得到結晶態氫氧基磷灰石,經由實驗結果得知316 不銹鋼在120 瓦、3 分鐘電漿滲氮處理表面即有刻蝕現象。
In this study, 316 stainless steel filament for plasma nitriding treatment and polylactic acid (PLA) multifilament line alkali to the surface roughness, and sixteen anchor taping machine to make 316 / Poly Lactic acid fabrics, after 316 / PLA fabric immersed plating solution (Simulated Body Fluid, SBF) was fixed to the cathode electrode, and the subject to different currents and at different times to made the hydroxyapatite (HA) formation faster. We also used scanning electron microscopy (SEM) and X-ray diffraction for crystallographic analysis. The results indicate that the of surface 316 stainless steel was etched after 120 watts, 3 minutes plasma nitriding and the weight was increase after 30 minutes electrochemical treatment tended to, get in the electrochemical literature simulated body fluid after 30 minutes of immersion 15 days to be crystalline hydroxyapatite.
