Process parameter optimization for porosity and compressive strength of calcium sulfate based 3D printed porous bone scaffolds

Modi Yashwant Kumar; Sahu Kiran Kumar

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Process parameter optimization for porosity and compressive strength of calcium sulfate based 3D printed porous bone scaffolds

机译：基于硫酸钙的3D印刷多孔骨支架的孔隙率和抗压强度的方法优化

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摘要

Purpose - This study aims to optimize the process parameters of ZPrinter (R) 450 for measured porosity (MP) and compressive strength (CS) of calcium sulfate-based porous bone scaffold using Taguchi approach.

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来源
《Rapid prototyping journal》 |2021年第2期|共11页
作者
Modi Yashwant Kumar; Sahu Kiran Kumar;
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作者单位

Jaypee Univ Engn &

Technol Dept Mech Engn Guna India;

Jaypee Univ Engn &

Technol Dept Mech Engn Guna India;

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原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;
关键词
ANOVA; Optimization; Additive manufacturing; S/N ratio; 3D printing; Compressive strength; Porosity; Taguchi methods; Porous bone scaffold;

机译：ANOVA;优化;添加剂制造;S / N比;3D打印;抗压强度;孔隙率;TAGUCHI方法;多孔骨脚手架;

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3. Preparation and Compressive Strength of Calcium Phosphate Bone Cement Containing N, O-carboxymethyl Chitosan [J] . RUAN, Ziwei, WENG, 武汉理工大学学报：材料科学英文版 . 2005,第B12期
4. Effect of technical parameters on porous structure and strength of 3D printed calcium sulfate prototypes [J] . Mitra Asadi-Eydivand, Mehran Solati-Hashjin, Arghavan Farzad, Robotics and Computer-Integrated Manufacturing . 2016,第FEBa期

机译：技术参数对3D打印硫酸钙原型的多孔结构和强度的影响
5. 3D-printed scaffolds of mesoporous bioglass/gliadin/polycaprolactone ternary composite for enhancement of compressive strength, degradability, cell responses and new bone tissue ingrowth [J] . Yiqun Zhang, Wei Yu, Zhaoyu Ba, International Journal of Nanomedicine . 2018,第1期

机译：3D打印的中孔生物玻璃/麦醇溶蛋白/聚己内酯三元复合材料的支架，可增强抗压强度，降解性，细胞反应和新的骨组织向内生长
6. Effect of Printing Parameters on Compressive Strength of Additively Manufactured Porous Bone Scaffolds Using Taguchi Method [J] . Sahu Kiran Kumar, Modi Yashwant Kumar International Journal of Manufacturing, Materials and Mechanical Engineering . 2021,第1期

机译：印刷参数对使用TAGUCHI法的累积制造多孔骨支架抗压强度的影响
7. Porous calcium sulfate/hydroxyapatite whiskers scaffold for bone tissue Engineering [C] . Tingting Yan, Xiaopei Wu, Yongshun Cui, International Conference on Automation, Communication, Architectonics and Materials . 2013

机译：多孔硫酸钙/羟基磷灰石晶须骨组织工程支架
8. The Design and Development of Osteoinductive and Osteoconductive Pre-Vascularised 3D Printed Scaffolds with High Porosity and Load Bearing Properties for Bone Regeneration [D] . Lakshmikanthan, Adhithi Kanthan. 2018

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9. 3D-printed scaffolds of mesoporous bioglass/gliadin/polycaprolactone ternary composite for enhancement of compressive strength degradability cell responses and new bone tissue ingrowth [O] . Yiqun Zhang, Wei Yu, Zhaoyu Ba, 2018

机译：3D打印的介孔生物玻璃/麦醇溶蛋白/聚己内酯三元复合材料的支架可增强抗压强度降解性细胞反应和新的骨组织向内生长
10. Effect of technical parameters on porous structure and strength of 3D printed calcium sulfate prototypes [O] . Asadi-Eydivand, M., Solati-Hashjin, M., Farzad, A., 2016

机译：技术参数对3D打印硫酸钙原型的多孔结构和强度的影响
11. Fabrication and Evaluation of Ceramic Implant Materials for Replacement of Teeth and Bone -Mechanical Strength Testing of Highly Porous Calcium Aluminate Ceramics. [R] . hulbert,samuel f. klawitter,jerome j. 1971

机译：高效多孔铝酸钙陶瓷陶瓷植入材料的制备与评价 - 骨多孔铝酸钙陶瓷的力学性能测试。

Process parameter optimization for porosity and compressive strength of calcium sulfate based 3D printed porous bone scaffolds

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