增材制造技术制备生物植入材料的研究进展
张光曦, 刘世锋, 杨鑫, 时明军, 任垚嘉 - 粉末冶金技术, 2019 - pmt.ustb.edu.cn
增材制造技术突破了传统模具加工工艺的限制, 可用于高效个性化定制生物医用材料. 近年来,
医学上对骨骼修复和移植的个性化需求显著增加, 增材制造可满足该定制化的需求 …
医学上对骨骼修复和移植的个性化需求显著增加, 增材制造可满足该定制化的需求 …
[HTML][HTML] Layer-by-layer bioassembly of cellularized polylactic acid porous membranes for bone tissue engineering
V Guduric, C Metz, R Siadous, R Bareille… - Journal of Materials …, 2017 - Springer
The conventional tissue engineering is based on seeding of macroporous scaffold on its
surface (“top–down” approach). The main limitation is poor cell viability in the middle of the …
surface (“top–down” approach). The main limitation is poor cell viability in the middle of the …
[PDF][PDF] Research progress on preparation of biological implant materials by additive manufacturing
Z Guang-xi, LIU Shi-feng, Y Xin… - Powder Metallurgy …, 2019 - pmt.ustb.edu.cn
Additive manufacturing technology breaks through the limitations of traditional mold
processing technology, and it is an important method for the efficiently customizing …
processing technology, and it is an important method for the efficiently customizing …
3D printing cross-linkable calcium phosphate biocomposites for biocompatible surgical implantation
D Thomas, D Singh - Bioprinting, 2021 - Elsevier
In this research study we report the fabrication of a cross-linkable calcium phosphate
biocomposite to engineer a replica mandible bone structure for surgical implantation. This …
biocomposite to engineer a replica mandible bone structure for surgical implantation. This …
Optimal analysis of material ratio for artificial rock by 3D printing technique
T Wu, H Zhao, Q Xu, Y Zhao - Geomechanics and Geoengineering, 2022 - Taylor & Francis
Rock cores are important for rock properties research because they are linked to significant
oil and gas drilling and production technology around the world. The goal of synthesising …
oil and gas drilling and production technology around the world. The goal of synthesising …