短切玻璃纤维

  • 网络Chopped glass fiber;chopped strand
短切玻璃纤维短切玻璃纤维
  1. 为解决短切玻璃纤维与基体树脂结合的均匀性问题,用薄膜镶嵌法制备了短切玻璃纤维增强聚酰亚胺PIGF-3和PIGF-9。

    S To make chopped glass fiber mixed uniformly with matrix resin , chopped glass fiber reinforced polyimide PIGF-3 and PIGF-9 were made by means of mosaic film .

  2. 短切玻璃纤维增强硬质聚氨酯泡沫塑料的压缩性能

    Compressive properties of chopped glass fiber reinforced rigid polyurethane foam

  3. 短切玻璃纤维(GF)增强PET复合材料的研究

    Study on PET / GF Composite Reinforced by Short GF

  4. 本实验通过适量加入增韧剂和增容剂,较大提高了挤出的复合材料丝的韧性及力学性能,从而使制备出的短切玻璃纤维增强复合材料适用于熔融沉积制造(FDM)工艺。

    The toughness and mechanical properties of the resultant composite filament from injection molding machine are improved so as to be used for FDM ( Fused Deposition Manufacturing ) process .

  5. 由单一短切玻璃纤维增强的PVC复合材料,在同一纤维含量下随着纤维长度的增加,拉伸强度、弹性模量、弯曲强度和弯曲模量也在增加,但是增加的不是很明显。

    When the fiber content was same , the tensile and the bending strength , the elastic module of the PVC composite completely reinforced by the short glass fibers would be increased in accordance with the increase of the length of the fiber , but the increase was not obvious .

  6. 在该材料中,短切玻璃纤维的加入大幅度提高了材料的拉伸、弯曲强度,而POE则通过产生形变等方式,提高了材料的冲击韧性;

    Glass fiber plays an important role in the reinforcement of the tensile strength and the flexural strength of the composites , while POE and maleic anhydride graft polypropylene contribute to the improvement of their impact toughness through the modification of interface compatibility .

  7. 短切玻璃纤维增强尼龙材料的摩擦与磨损

    On the Friction and Wear of Short Glass Fiber Reinforced Nylon

  8. 热致液晶聚合物微纤与短切玻璃纤维原位混杂增强的聚碳酸酯复合材料

    In situ hybrid polycarbonate composites containing thermotropic liquid crystalline polymer fibrils and glass fibers

  9. 短切玻璃纤维增强热塑性塑料吸水性的研究

    Water absorption of chopped-glassfiber reinforced thermoplastics

  10. 结果表明,采用短切玻璃纤维加入时,玻纤含量对GF/PA6复合材料的力学性能影响很大。

    The results showed that the mechanical properties of composites increased with the glass fiber content .

  11. 为了进一步增强材料的力学性能,引入了短切玻璃纤维。

    In order to further strengthen mechanical properties of materials , different kinds of short glasses fibers were introduced .

  12. 在玻纤含量相同时,采用长玻璃纤维连续添加得到的复合材料力学性能明显优于采用短切玻璃纤维时的性能。

    The mechanical properties of composites prepared from long continuous glass fiber was better than those from short glass fiber .

  13. 环氧树脂/玻璃纤维布界面比环氧树脂/短切玻璃纤维界面有更强的界面增强效应。

    The epoxy / glass fiber cloth interface has much stronger reinforcing effect than the epoxy / short-cut glass fiber .

  14. 采用短切玻璃纤维与木粉组合,可以获得力学性能很高,能作为结构材料使用的复合材料。

    Composites with high mechanical properties that can be used as structure materials can be obtained by combining wood flour and chopped glass fiber .

  15. 综合来看,短切玻璃纤维增强效果不如玻璃微珠理想,质量含量为10%的玻璃微珠的增强效果最为理想。

    Comprehensively , reinforced effects of short-cut fibreglass are not as good as those of glass bead , reinforced effects of10wt % glass bead are the best .

  16. 玻璃纤维筋与混凝土粘结性能耐久性短期研究短切玻璃纤维增强硬质聚氨酯的弹性模量

    Study on Durability of Bonding Property between GFRP Reinforcement and Concrete in Short-term ; Effect of Short Glass Fiber on the Elasticity Coefficient Properties of Rigid Polyurethane Materials

  17. 以聚乙烯共混树脂为基体,填充轻质碳酸钙、粉煤灰及短切玻璃纤维,添加各种助剂,进行增强和填充改性,用热压成型方法制得低发泡系列复合材料。

    A series of low foam compound materials was prepared by hot pressing polyethylene blend resins filled with light calcium carbonate , powdered coal and short fiberglass and added compounding chemicals and then modified by reinforcing and filling .

  18. 添加增强材料短切玻璃纤维和玻璃微珠可有效地提高PUR-R泡沫塑料的力学性能,综合来看,短切玻璃纤维增强效果不如玻璃微珠,质量分数为10%的玻璃微珠增强效果最好。

    Filling short-cut fiberglass and tiny glass bead can effectively raise the mechanical properties of the rigid polyurethane foam . Synthetically , filling tiny glass bead is better , 10 % weight content of it is the best .