预处理方法对复合材料和聚合物渗透陶瓷CAD-CAM块体粘附力的影响。

Isabel Emsermann, F. Eggmann, G. Krastl, R. Weiger, J. Amato
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After six months of water storage, shear bond tests were performed. Data were analyzed with multiple linear regression models and nested models (α = 0.05). RESULTS Low bond strengths were obtained without pretreatment (Brilliant Crios 3.01 ± 0.54 MPa, Cerasmart 2.66 ± 0.47 MPa, Lava Ultimate 1.76 ± 0.26 MPa, VITA Enamic 2.83 ± 0.63 MPa). Grit blasting achieved high bond strengths across all materials (Brilliant Crios 5.17 ± 0.77 MPa, Cerasmart 4.27 ± 0.50 MPa, Lava Ultimate 3.98 ± 0.54 MPa, VITA Enamic 4.97 ± 0.90 MPa). Silane application tended to decrease bond strengths on CADCAM composite resins. Following the manufacturers' specifications and using their recommended materials achieved the highest bond strengths for all materials except Cerasmart (Brilliant Crios 5.75 ± 0.91 MPa, Cerasmart 2.82 ± 0.28 MPa, Lava Ultimate 6.63 ± 0.97 MPa, VITA Enamic 7.09 ± 0.77 MPa). 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引用次数: 35

摘要

目的探讨不同表面预处理对树脂骨架材料在CAD-CAM复合树脂和聚合物渗透陶瓷网络(PICN)上剪切结合强度的影响。材料与方法对scad - cam材料(Brilliant Crios, Cerasmart, Lava Ultimate, VITA Enamic)进行如下预处理:不进行预处理;喷砂处理;喷砂+硅烷;HF蚀刻+硅烷;摩擦化学二氧化硅涂层+硅烷;制造商的规范;厂家规格+硅烷;仅使用制造商的产品,包括他们推荐的填塞材料(DuoCem, G-Cem LinkForce, RelyX Ultimate, RelyX Unicem 2)。根据瑞士剪切试验设计,用树脂填塞材料填塞样品。储水6个月后,进行剪切粘结试验。采用多元线性回归模型和嵌套模型对数据进行分析(α = 0.05)。结果经预处理获得的慢键强度分别为:Brilliant Crios 3.01±0.54 MPa, Cerasmart 2.66±0.47 MPa, Lava Ultimate 1.76±0.26 MPa, VITA Enamic 2.83±0.63 MPa。喷砂在所有材料上都取得了很高的粘结强度(Brilliant Crios 5.17±0.77 MPa, Cerasmart 4.27±0.50 MPa, Lava Ultimate 3.98±0.54 MPa, VITA Enamic 4.97±0.90 MPa)。硅烷的应用往往会降低CADCAM复合树脂的结合强度。遵循制造商的规范并使用他们推荐的材料,除了Cerasmart (Brilliant Crios 5.75±0.91 MPa, Cerasmart 2.82±0.28 MPa, Lava Ultimate 6.63±0.97 MPa, VITA Enamic 7.09±0.77 MPa)之外,所有材料的结合强度都达到了最高。结论喷砂和使用合适的底漆材料是CAD-CAM复合树脂粘接的有效预处理方法。硅烷在CAD-CAM复合树脂上的应用可能存在缺陷,可能是由于可硅化填料的缺乏。
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Influence of Pretreatment Methods on the Adhesion of Composite and Polymer Infiltrated Ceramic CAD-CAM Blocks.
PURPOSE To assess the effect of different surface pretreatments on the shear bond strength of resin luting material on CAD-CAM composite resins and a polymer-infiltrated ceramic network (PICN). MATERIALS AND METHODS CAD-CAM materials (Brilliant Crios, Cerasmart, Lava Ultimate, VITA Enamic) were subjected to the following pretreatments: no pretreatment; grit blasting; grit blasting + silane; HF etching + silane; tribochemical silica coating + silane; manufacturers' specifications; manufacturers' specifications + silane; manufacturers' specifications using only the manufacturers' products including their recommended luting materials (DuoCem, G-Cem LinkForce, RelyX Ultimate, RelyX Unicem 2). Specimens were luted with resin luting material according to the Swiss shear test design. After six months of water storage, shear bond tests were performed. Data were analyzed with multiple linear regression models and nested models (α = 0.05). RESULTS Low bond strengths were obtained without pretreatment (Brilliant Crios 3.01 ± 0.54 MPa, Cerasmart 2.66 ± 0.47 MPa, Lava Ultimate 1.76 ± 0.26 MPa, VITA Enamic 2.83 ± 0.63 MPa). Grit blasting achieved high bond strengths across all materials (Brilliant Crios 5.17 ± 0.77 MPa, Cerasmart 4.27 ± 0.50 MPa, Lava Ultimate 3.98 ± 0.54 MPa, VITA Enamic 4.97 ± 0.90 MPa). Silane application tended to decrease bond strengths on CADCAM composite resins. Following the manufacturers' specifications and using their recommended materials achieved the highest bond strengths for all materials except Cerasmart (Brilliant Crios 5.75 ± 0.91 MPa, Cerasmart 2.82 ± 0.28 MPa, Lava Ultimate 6.63 ± 0.97 MPa, VITA Enamic 7.09 ± 0.77 MPa). CONCLUSION Grit blasting and the application of a suitable material primer is a useful pretreatment for the bonding of CAD-CAM composite resins. Silane application on CAD-CAM composite resins may entail drawbacks, possibly owing to the scarcity of silanizable fillers.
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