通过三维打印制造的致密聚乳酸结构的力学性能

Mechanical properties of dense polylactic acid structures fabricated by three dimensional printing.

作者信息

Giordano R A, Wu B M, Borland S W, Cima L G, Sachs E M, Cima M J

机构信息

Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge 01239, USA.

出版信息

J Biomater Sci Polym Ed. 1996;8(1):63-75. doi: 10.1163/156856297x00588.

DOI:10.1163/156856297x00588

PMID:8933291

Abstract

Polylactic acid (PLA) is a bioresorbable polymer that is used in a number of clinical situations. Complex shapes of PLA are commonly machined for bone fixation and reconstruction. Solid free from fabrication methods, such as 3D printing, can produce complex-shaped articles directly from a CAD model. This study reports on the mechanical properties of 3D-printed PLLA parts. 3D printing is a solid free-form fabrication process which produces components by ink-jet printing a binder into sequential powder layers. Test bars were fabricated from low and high molecular weight PLA powders with chloroform used as a binder. The binder printed per unit line length of the powder was varied to analyze the effects of printing conditions on mechanical and physical properties of the PLA bars. Furthermore, cold isostatic pressing was performed after printing to improve the mechanical properties of the printed bars. The maximum measured tensile strength for the low molecular weight PLLA (53 000) is 17.40 +/- 0.71 MPa and for high molecular weight PLLA (312 000) is 15.94 +/- 1.50 MPa.

摘要

聚乳酸（PLA）是一种可生物吸收的聚合物，在许多临床情况下都有应用。PLA的复杂形状通常通过加工来实现骨固定和重建。诸如3D打印等实体自由制造方法可以直接从CAD模型生产出复杂形状的制品。本研究报告了3D打印聚左旋乳酸（PLLA）部件的力学性能。3D打印是一种实体自由成型制造工艺，通过将粘合剂喷墨打印到连续的粉末层中来生产部件。测试棒由低分子量和高分子量的PLA粉末制成，使用氯仿作为粘合剂。改变每单位粉末线长度打印的粘合剂，以分析打印条件对PLA棒材力学和物理性能的影响。此外，打印后进行冷等静压以改善打印棒材的力学性能。低分子量PLLA（53000）测得的最大拉伸强度为17.40±0.71MPa，高分子量PLLA（312000）测得的最大拉伸强度为15.94±1.50MPa。

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通过三维打印制造的致密聚乳酸结构的力学性能

Mechanical properties of dense polylactic acid structures fabricated by three dimensional printing.

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