EFFECTS OF MOLDING CONDITIONS ON THE CONDUCTIVITY PROPERTIES OF INJECTION MOLDED BIPOLAR PLATE USED FOR FUEL CELL

机译：模塑条件对用于燃料电池的注塑成型双极板电导率的影响

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Fuel cell is an important energy source for the 21st century. Among fuel cell components, plastics have been chosen as a candidate material for bipolar plates which needs to fulfill the conductivity requirement. In this study, polymer polyphenylene sulfide (PPS) containing 50% carbon fiber was in injection molded and its conductivity was measured by the four point probe. The carbon fiber dispersion and orientation were examined by scanning electron microscopy (SEM). It was found that at high mold temperature, high melt temperature and lower injection rate, the carbon fiber distributed more uniformly leading to higher conductivity. High holding pressure closely tangled the carbon fiber, also increases conductivity. 3D-CAE simulations were also conducted to verify fiber dispersion and orientation under different molding parameters and show reasonable consistency.

机译：燃料电池是21世纪的重要能源。在燃料电池组分中，已选择塑料作为需要满足电导率的双极板的候选材料。在该研究中，将含有50％碳纤维的聚合物聚苯硫醚（PPS）注射成型，并通过四点探针测量其电导率。通过扫描电子显微镜（SEM）检查碳纤维分散和取向。发现，在高模压温度，高熔体温度和较低的注射速率下，碳纤维更均匀地分布导致更高的导电性。高保持压力紧密缠结碳纤维，也增加了电导率。还进行了3D-CAE模拟以验证不同模塑参数下的光纤分散和取向，并显示合理的一致性。

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《Society of Plastics Engineers Annual Technical Conference》|2006年||共4页
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S. C. Chen; M. Y. Shih; P. H. Lee; J. S. Huang; Society of Plastics Engineers(SPE);
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中图分类有机质材料;
关键词
bulk conductivity; carbon fiber; fiber orientation; bipolar plate;

机译：散装电导率;碳纤维;纤维取向;双极板;

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1. EFFECTS OF MOLDING PARAMETERS ON THE THROUGH-PLANE RESISTANCE OF INJECTION MOLDED COMPOSITE POLYMER BIPOLAR PLATE [J] . Shia-Chung Chen, Chih-Kai Cheng, Ming-Yi Shih, Journal of polymer engineering . 2009,第1a3期

机译：成型参数对注射成型复合聚合物双板的耐全平面性的影响
2. Effect of the compression molding parameters on the in-plane and through-plane conductivity of carbon nanotubes/graphite/ epoxy nanocomposites as bipolar plate material for a polymer electrolyte membrane fuel cell [J] . Hendra Suherman, Abu Bakar Sulong, Jaafar Sahari CERAMICS INTERNATIONAL . 2013,第2期

机译：压缩成型参数对作为聚合物电解质膜燃料电池双极板材料的碳纳米管/石墨/环氧纳米复合材料的面内和面内电导率的影响
3. Electrically Conductive Thermoplastic Blends for Injection and Compression Molding of Bipolar Plates in the Fuel Cell Application [J] . Rej Mighri, Michel A.Huneault, Michel F.Champagne Polymer engineering and science . 2004,第9期

机译：用于燃料电池应用中双极板注塑和压缩成型的导电热塑性共混物
4. EFFECTS OF MOLDING CONDITIONS ON THE CONDUCTIVITY PROPERTIES OF INJECTION MOLDED BIPOLAR PLATE USED FOR FUEL CELL [C] . S. C. Chen, M. Y. Shih, P. H. Lee, Society of Plastics Engineers Annual Technical Conference 2006(ANTEC 2006) vol.3; 20060507-11; Charlotte,NC(US) . 2006

机译：成型条件对燃料电池用注射成型双极板导电性能的影响
5. The development of compression moldable polymer composite bipolar plates for fuel cells. [D] . Cunningham, Brent. 2007

机译：用于燃料电池的可压缩模塑的聚合物复合双极板的开发。
6. Effect of Micro-Mold Cavity Dimension on Structure and Property of Polylactic Acid/Polycaprolactone Blend under Microinjection Molding Conditions [O] . Meng Wang, Weiwei Ding, Yeping Xie, 2021

机译：微模腔尺寸对显微注射成型条件下聚乳酸/聚己内酯混合物结构和性能的影响
7. A Study on the Fabrication of Metallic Bipolar Plate for Subminiature Fuel Cell using Powder Injection Molding Process [O] . Gun-hee Kim, Jeong-won Lee, Young-moo Heo, 2015

机译：粉末注射成型制备超小型燃料电池金属双极板的研究
8. Study of Relationships Between Processing Variables and Properties In Thermoplastic Injection Molded Parts. Selection of Specimen and Process Variables, Mold Design, Instrumentation and Molding Procedure. [R] . McLaughlin, F. A. 1973

机译：热塑性注塑件加工变量与性能关系的研究。样品和工艺变量的选择，模具设计，仪器和成型程序。

EFFECTS OF MOLDING CONDITIONS ON THE CONDUCTIVITY PROPERTIES OF INJECTION MOLDED BIPOLAR PLATE USED FOR FUEL CELL

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