了解生物活性玻璃 S53P4 粉末压制物在各种加热条件下的结晶行为

IF 3.2 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of Non-crystalline Solids Pub Date : 2024-08-15 DOI:10.1016/j.jnoncrysol.2024.123178

Adrian Stiller, Markus Engblom, Emil Vainio, Leena Hupa

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引用次数: 0

摘要

不同的加热条件明显影响了生物活性玻璃（BAG）S53P4 粉末压实物的致密化和结晶的竞争过程。BAG S53P4 因其具有骨刺激和抑制细菌生长的特性而闻名，是一种用于骨修复和组织工程三维支架的前景广阔的材料。然而，由于其结晶倾向，必须更好地了解不同热处理对玻璃烧结性的影响。我们在空气中系统地研究了各种等温和非等温条件下 S53P4 粉末（45 微米）致密化和结晶的情况。加热显微镜和扫描电镜形态分析提供了随时间和温度变化的致密化和表面结晶的详细图谱。确定了等温烧结的合适参数范围。使用 20 °C min-1 的初始加热速率和 600-615 °C 的温度，可获得显示中等致密化（ρrel ≈ 77 %）的无定形压实物。更长时间的处理会导致更高的致密化（ρrel ≥ 84 %），但也会导致结晶，从而产生玻璃陶瓷产品。

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Understanding the crystallization behavior of bioactive glass S53P4 powder compacts under various heating conditions

Different heating conditions markedly affected the competing processes of densification and crystallization of bioactive glass (BAG) S53P4 powder compacts. BAG S53P4, known for its osteostimulative and bacterial growth-inhibiting properties, is a promising material for 3D scaffolds for bone repair and tissue engineering. However, due to its crystallization tendency, the impact of different heat treatments on the glass's sinterability must be better understood. The densification and crystallization of S53P4 powder (<45 µm) compacts were systematically investigated in air under various isothermal and non-isothermal conditions. Heating microscopy and SEM morphological analysis provided detailed maps of time- and temperature-dependent densification and surface crystallization. Suitable parameter ranges for isothermal sintering were determined. Using an initial heating rate of 20 °C min⁻¹ and temperatures of 600–615 °C, amorphous compacts showing moderate densification (ρ_rel ≈ 77 %) were achieved. Longer treatments led to higher densification (ρ_rel ≥ 84 %) but also caused crystallization, resulting in glass-ceramic products.

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来源期刊

Journal of Non-crystalline Solids 工程技术-材料科学：硅酸盐

CiteScore

6.50

自引率

11.40%

发文量

576

审稿时长

35 days

期刊介绍： The Journal of Non-Crystalline Solids publishes review articles, research papers, and Letters to the Editor on amorphous and glassy materials, including inorganic, organic, polymeric, hybrid and metallic systems. Papers on partially glassy materials, such as glass-ceramics and glass-matrix composites, and papers involving the liquid state are also included in so far as the properties of the liquid are relevant for the formation of the solid. In all cases the papers must demonstrate both novelty and importance to the field, by way of significant advances in understanding or application of non-crystalline solids; in the case of Letters, a compelling case must also be made for expedited handling.