打印层厚度对 3D 打印树脂光学性能和表面粗糙度的影响:一项体外研究。
Effect of Printing Layer Thickness on Optical Properties and Surface Roughness of 3D-Printed Resins: An In Vitro Study.
出版信息
Int J Prosthodont. 2024 Feb 21;37(7):165-173. doi: 10.11607/ijp.8965.
PURPOSE
To investigate the impact of printing layer thickness on the optical properties and surface roughness of various 3D-printed resins manufactured by digital light processing (DLP) and indicated for provisional and definitive restorations.
MATERIALS AND METHODS
A total of 240 specimens from four different 3D-printing resins-VarseoSmile Crown Plus (Bego; VS), Crowntec (Saremco Dental; CR), GC Temp PRINT (GC Dental; TG), and NextDent C&B MFH (NextDent; ND)-were divided into four groups (n = 60 per group). Each group was further divided into three subgroups (n = 20) according to printing layer thickness (25, 50, and 100 μm). All specimens were subjected to thermocycling with coffee before measurements were taken with a spectroradiometer to calculate color differences. The Kubelka-Munk (K-M) absorption (K) and scattering coefficients (S), translucency parameters (TP), and surface roughness (Ra) values were calculated for each printing layer thickness and compared with those of the 2M2 shade tab (target). The data were analyzed using Mann-Whitney U test, the variance accounted for (VAF) coefficient by Cauchy-Schwarz, and post hoc comparisons using Tukey test (α ≤ .05).
RESULTS
S (79% ≤ VAF ≤ 100%) and K (40.45% ≤ VAF ≤ 100%) spectral distribution depended on the wavelength. A 25-μm layer thickness resulted in no significant differences from the 2M2 shade for S (P > .230) and K (P > .200). VS showed significantly different S (P = .004) and K (P = .003) values from those of the shade tab with 50-μm layering thickness, whereas other materials did not show significant differences from the 2M2 shade for S (P > .280) and K (P > .301). The 100-μm layer thickness specimens had significantly different S and K values compared to the 2M2 shade tab (P < .004). TP values of resins with 100-μm layer thickness were significantly lower than resins in 25- and 50-μm layer thicknesses (P < .001). The Ra values of resins increased significantly with 100-μm layer thickness (P ≤ .001).
CONCLUSIONS
All tested materials, except for VS, showed color properties similar to the target shade when 25- and 50-μm printing layer thicknesses were used. The translucency of resins tended toward an inverse relationship with printing layer thickness. The surface roughness of resins increased significantly with 100-μm layer thickness. However, all resins with a printing thickness of 25 μm showed better color properties and surface roughness.
目的
研究不同的数字光处理(DLP)制造的 3D 打印树脂的打印层厚度对其光学性能和表面粗糙度的影响,这些树脂适用于临时和最终修复体。
材料和方法
共收集了来自四种不同 3D 打印树脂-VarseoSmile Crown Plus(Bego;VS)、Crowntec(Saremco Dental;CR)、GC Temp PRINT(GC Dental;TG)和 NextDent C&B MFH(NextDent;ND)的 240 个样本,每组 60 个(共 4 组)。每组根据打印层厚度(25、50 和 100μm)进一步分为 3 个亚组(n = 20)。所有样本均进行咖啡循环热循环处理,然后使用分光光度计测量颜色差异。计算了每个打印层厚度的 Kubelka-Munk(K-M)吸收系数(K)和散射系数(S)、半透明度参数(TP)和表面粗糙度(Ra)值,并与 2M2 比色板(目标值)进行比较。使用曼-惠特尼 U 检验、Cauchy-Schwarz 方差解释系数(VAF)和 Tukey 检验进行后验比较(α≤.05)。
结果
S(79%≤VAF≤100%)和 K(40.45%≤VAF≤100%)光谱分布取决于波长。25μm 层厚与 2M2 比色板相比,S(P>.230)和 K(P>.200)没有显著差异。VS 的 S(P=.004)和 K(P=.003)值与比色板的差异显著,而其他材料的 S(P>.280)和 K(P>.301)值与 2M2 比色板无显著差异。100μm 层厚的样本与 2M2 比色板相比,S 和 K 值有显著差异(P<.004)。100μm 层厚树脂的 TP 值明显低于 25μm 和 50μm 层厚树脂(P<.001)。随着 100μm 层厚度的增加,树脂的 Ra 值显著增加(P≤.001)。
结论
除了 VS 之外,所有测试材料在使用 25μm 和 50μm 打印层厚度时,其颜色性能均与目标比色板相似。树脂的半透明度与打印层厚度呈反比关系。树脂的表面粗糙度随 100μm 层厚度的增加而显著增加。然而,所有厚度为 25μm 的树脂在颜色性能和表面粗糙度方面都表现更好。
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