增材制造

增材制造及3D/4D打印技术 (2022 ~ 2023)

点击查阅本刊2021年及之前发表的同主题论文

Shan Y, Bai Y, Yang S, et al. 3D-printed strontium-incorporated β-TCP bioceramic triply periodic minimal surface scaffolds with simultaneous high porosity, enhanced strength, and excellent bioactivity. Journal of Advanced Ceramics, 2023, 12 (9): 1671-1684.

Chen X, Yin J, Huang L, et al. Microstructural tailoring, mechanical and thermal properties of SiC composites fabricated by selective laser sintering and reactive melt infiltration. Journal of Advanced Ceramics, 2023, 12 (4): 830-847.
品味“仙桃” | 选区激光打印SiC复合材料全过程微结构及性能调控

Ma S, Jiang Y, Fu S, et al. 3D-printed Lunar regolith simulant-based geopolymer composites with bio-inspired sandwich architectures. Journal of Advanced Ceramics, 2023, 12 (3): 510-525.
品味“仙桃” | 仿生结构设计结合3D打印制备地聚物复合材料，为未来月球基地建造提供新构想

SHI Z-A, WU J-M, FANG Z-Q, et al. Influence of high-temperature oxidation of SiC powders on curing properties of SiC slurry for digital light processing. Journal of Advanced Ceramics, 2023, 12 (1): 169-181.
品味“仙桃” | SiC粉体的高温氧化对数字光处理用SiC浆料固化性能的影响

Zhang X, Zhang K, Zhang B, et al. Mechanical properties of additively-manufactured cellular ceramic structures: A comprehensive study. Journal of Advanced Ceramics, 2022, 11 (12): 1918-1931.
品味“仙桃” | 3D打印的陶瓷材料点阵结构能不能承载？

Liu H, Su H, Shen Z, et al. Formation mechanism and roles of oxygen vacancies in melt-grown Al₂O₃/GdAlO₃/ZrO₂ eutectic ceramic by laser 3D printing. Journal of Advanced Ceramics, 2022, 11 (11): 1751-1763.
品味“仙桃” | 基于氧空位调控激光3D打印氧化物共晶陶瓷性能

Wei X, Jin ML, Yang H, et al. Advances in 3D printing of magnetic materials: Fabrication, properties, and their applications. Journal of Advanced Ceramics, 2022, 11 (5): 665-701.
品味“仙桃” | 3D打印磁性材料研究进展

Pan MZ, Hua SB, Wu JM, et al. Preparation and properties of T-ZnO_w enhanced BCP scaffolds with double-layer structure by digital light processing. Journal of Advanced Ceramics, 2022, 11 (4): 570-581.
品味“仙桃” | 四针状氧化锌晶须显著提升增材制造生物陶瓷骨支架力学强度

Liu C, Qiu Y, Liu Y, et al. Novel 3D grid porous Li₄Ti₅O₁₂ thick electrodes fabricated by 3D printing for high performance lithium-ion batteries. Journal of Advanced Ceramics, 2022, 11 (2): 295-307.
品味“仙桃” | 3D打印网格状多孔三维电极实现厚电极中锂离子的快速传输

Zhao D, Wu D, Shi J, et al. Microstructure and mechanical properties of melt-grown alumina-mullite/glass composites fabricated by directed laser deposition. Journal of Advanced Ceramics, 2022, 11 (1): 75-93.
品味“仙桃” | 不一样的陶瓷增材制造：激光定向能量沉积

点击查阅本刊2021年及之前发表的同主题论文

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01 综述论文 02 高熵陶瓷的制备工艺及性能 03 增材制造及3D/4D打印技术 04 结构陶瓷 05 热障涂层、环境障涂层及其他保护性涂层 06 隔热陶瓷 07 高导热陶瓷 08 透波与吸波 09 透明与发光 10 MAX、MAB、MXenes 及相似二维材料 11 多孔陶瓷与多孔无机膜 12 介电、压电、铁电 13 磁性材料 14 纳米功能材料 15 功能性薄膜 16 电池材料 (电解质、电极等) 17 热电材料 18 催化及有机物降解材料 19 敏感陶瓷 (气敏、NTC、Varistor) 20 核能相关陶瓷材料 21 生物材料 22 聚合物先驱体陶瓷 23 粉体、纤维、晶须 24 玻璃与玻璃陶瓷 25 地聚物陶瓷 26 陶瓷工艺技术 27 涉及材料计算的论文	如果您对某一篇论文感兴趣，请点击论文题目直接进入SciOpen网站该论文所在页面下载论文全文电子版。部分论文的题目下方还给出了“特陶人”公众号上曾经发表的该文的中文推广材料，供点击阅读。有些论文还没有相应的“品味仙桃”中文推广材料。请这些论文的作者尽可能提供中文推广材料 (已经提交的将在公众号连续发出，一个月内未发出的请及时联系期刊执行主编)。此外，如果您愿意为境外作者的某一篇或多篇论文撰写“品味仙桃”，我们不胜感激。
	增材制造及3D/4D打印技术 (2022 ~ 2023) 点击查阅本刊2021年及之前发表的同主题论文 Shan Y, Bai Y, Yang S, et al. 3D-printed strontium-incorporated β-TCP bioceramic triply periodic minimal surface scaffolds with simultaneous high porosity, enhanced strength, and excellent bioactivity. Journal of Advanced Ceramics, 2023, 12 (9): 1671-1684. Chen X, Yin J, Huang L, et al. Microstructural tailoring, mechanical and thermal properties of SiC composites fabricated by selective laser sintering and reactive melt infiltration. Journal of Advanced Ceramics, 2023, 12 (4): 830-847. 品味“仙桃” \| 选区激光打印SiC复合材料全过程微结构及性能调控 Ma S, Jiang Y, Fu S, et al. 3D-printed Lunar regolith simulant-based geopolymer composites with bio-inspired sandwich architectures. Journal of Advanced Ceramics, 2023, 12 (3): 510-525. 品味“仙桃” \| 仿生结构设计结合3D打印制备地聚物复合材料，为未来月球基地建造提供新构想 SHI Z-A, WU J-M, FANG Z-Q, et al. Influence of high-temperature oxidation of SiC powders on curing properties of SiC slurry for digital light processing. Journal of Advanced Ceramics, 2023, 12 (1): 169-181. 品味“仙桃” \| SiC粉体的高温氧化对数字光处理用SiC浆料固化性能的影响 Zhang X, Zhang K, Zhang B, et al. Mechanical properties of additively-manufactured cellular ceramic structures: A comprehensive study. Journal of Advanced Ceramics, 2022, 11 (12): 1918-1931. 品味“仙桃” \| 3D打印的陶瓷材料点阵结构能不能承载？ Liu H, Su H, Shen Z, et al. Formation mechanism and roles of oxygen vacancies in melt-grown Al₂O₃/GdAlO₃/ZrO₂ eutectic ceramic by laser 3D printing. Journal of Advanced Ceramics, 2022, 11 (11): 1751-1763. 品味“仙桃” \| 基于氧空位调控激光3D打印氧化物共晶陶瓷性能 Wei X, Jin ML, Yang H, et al. Advances in 3D printing of magnetic materials: Fabrication, properties, and their applications. Journal of Advanced Ceramics, 2022, 11 (5): 665-701. 品味“仙桃” \| 3D打印磁性材料研究进展 Pan MZ, Hua SB, Wu JM, et al. Preparation and properties of T-ZnO_w enhanced BCP scaffolds with double-layer structure by digital light processing. Journal of Advanced Ceramics, 2022, 11 (4): 570-581. 品味“仙桃” \| 四针状氧化锌晶须显著提升增材制造生物陶瓷骨支架力学强度 Liu C, Qiu Y, Liu Y, et al. Novel 3D grid porous Li₄Ti₅O₁₂ thick electrodes fabricated by 3D printing for high performance lithium-ion batteries. Journal of Advanced Ceramics, 2022, 11 (2): 295-307. 品味“仙桃” \| 3D打印网格状多孔三维电极实现厚电极中锂离子的快速传输 Zhao D, Wu D, Shi J, et al. Microstructure and mechanical properties of melt-grown alumina-mullite/glass composites fabricated by directed laser deposition. Journal of Advanced Ceramics, 2022, 11 (1): 75-93. 品味“仙桃” \| 不一样的陶瓷增材制造：激光定向能量沉积点击查阅本刊2021年及之前发表的同主题论文
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