Influence of Multi-Level Printing Process Parameters on 3D Printed Parts in Fused Deposition Molding of Poly(lactic) Acid Plus: A Comprehensive Investigation

Mohammad S. Alsoufi; Mohammed W. Alhazmi; Dhia K. Suker; Wadeea K. Hafiz; Sultan S. Almalki; Rashad O. Malibari

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Influence of Multi-Level Printing Process Parameters on 3D Printed Parts in Fused Deposition Molding of Poly(lactic) Acid Plus: A Comprehensive Investigation

机译：多级印刷工艺参数对3D打印零件在聚乳酸Plus熔融沉积成型中的影响：综合研究

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This research paper presents results of a study evaluating the influence of multi-level printing process parameters on 3D printed parts in FDM of PLA Plus. In this study, the effects of printing temperature, printing speed along with skirt/brim with and without top/bottom thickness were considered. The investigations show that the measured dimensions are always more than the CAD dimension along the z-direction (height) but dimensions along x- and y-directions (length and width) are less than the CAD dimension and not necessarily equal. The surface roughness fluctuated over independent printing process parameters along with the density. The results show that the Q-Q (quantile-quantile) plot of density is a very impressive and promising method in 3D FDM printing process parameters optimization.

机译：本研究论文提出了一项评估多层印刷工艺参数对PLA Plus FDM中3D打印零件的影响的研究结果。在这项研究中，考虑了印刷温度，印刷速度以及带/不带顶部/底部厚度的裙边/边缘的影响。研究表明，测量的尺寸始终大于沿z方向（高度）的CAD尺寸，但沿x和y方向（长度和宽度）的尺寸小于CAD尺寸，并且不一定相等。表面粗糙度随密度随独立印刷工艺参数而波动。结果表明，密度Q-Q（分位数-分位数）图是3D FDM打印过程参数优化中非常令人印象深刻且很有前途的方法。

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《American Journal of Mechanical Engineering》 |2019年第2期|共20页
作者
Mohammad S. Alsoufi; Mohammed W. Alhazmi; Dhia K. Suker; Wadeea K. Hafiz; Sultan S. Almalki; Rashad O. Malibari;
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中图分类机械、仪表工业;
关键词
surface roughnessdensityFDMPLA plusskirtbrim;

机译：表面粗糙度FODMAP LA加裙边;

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1. Investigation of the parameters used in fused deposition modeling of poly (lactic acid) to optimize 3D printing sessions [J] . Carlier E., Marquette S., Peerboom C., International Journal of Pharmaceutics . 2019,第期

机译：聚（乳酸）融合沉积建模中使用的参数的研究，优化3D印刷课程
2. Low-Velocity Impact Characteristics of 3D-Printed Poly-Lactic Acid Thermoplastic Processed by Fused Deposition Modeling [J] . Aloyaydi Bandar Abdullah, Sivasankaran Subbarayan Transactions of the Indian Institute of Metals . 2020,第6期

机译：用熔融沉积建模加工3D印刷多乳酸热塑性塑料的低速冲击特性
3. Improving the Impact Strength and Heat Resistance of 3D Printed Models: Structure, Property, and Processing Correlationships during Fused Deposition Modeling (FDM) of Poly(Lactic Acid) [J] . Claire Benwood, Andrew Anstey, Jacek Andrzejewski, ACS Omega . 2018,第4期

机译：改善3D打印模型的冲击强度和耐热性：聚乳酸熔融沉积建模（FDM）过程中的结构，性能和加工相关性
4. INFLUENCE OF THE ADDITION OF 0.5 AND 1 IN WEIGHT OF MULTI-WALL CARBON NANOTUBES (MWCNTs) IN POLY-LACTIC ACID (PLA) FOR 3D PRINTING [C] . C. Cobos, A. Conejero, O. Fenollar, Manufacturing Engineering Society International Conference . 2021

机译：对3D印刷的多壁碳纳米管（MWCNT）中的0.5和1％重量的影响0.5和1％的影响
5. Processing and Characterization of Functionally Modified Composites for Fused Deposition Modeling 3D Printing [D] . Woosley, Smith. 2018

机译：功能修改复合材料的处理与表征融合沉积建模3D打印
6. Improving the Impact Strength and Heat Resistance of 3D Printed Models: StructureProperty and Processing Correlationships during Fused DepositionModeling (FDM) of Poly(Lactic Acid) [O] . Claire Benwood, Andrew Anstey, Jacek Andrzejewski, 2018

机译：提高3D打印模型的冲击强度和耐热性：结构熔融沉积过程中的性质和加工相关性聚乳酸的建模（FDM）
7. Biodegradable Poly(Lactic Acid) Nanocomposites for Fused Deposition Modeling 3D Printing [O] . Madison Bardot, Michael D. Schulz 2020

机译：用于融合沉积建模3D印刷的可生物降解的聚（乳酸）纳米复合材料

Influence of Multi-Level Printing Process Parameters on 3D Printed Parts in Fused Deposition Molding of Poly(lactic) Acid Plus: A Comprehensive Investigation

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