共混纤维

  • 网络Blend fiber
共混纤维共混纤维
  1. PET/CGP共混纤维的制备与性能

    Preparation and properties of PET / CGP blend fiber

  2. PA6-PEG共聚纤维和PA6-PEG/PA6共混纤维的物理与力学性能

    The physical and mechanical properties of pa6-peg copolymer fiber and pa6-peg / pa6 polymer blend fiber

  3. PP/改性PET共混纤维染色性能

    Dyeing properties of PP / modified PET blended fiber

  4. PET/PA6-PEO胺共混纤维抗静电改性

    Antistatic modification of pet / pa6 PEO diamine blend fibers

  5. 采用广角X射线衍射,扫描电子显微镜、示差扫描量热分析等方法,对EVA/PP共混纤维的结构和性能作了初步的研究。

    The structure and Property of EVA / PP fibre are studied by means of WAXD , SEM , DS-Cand other method .

  6. 同时,在此基础上制备了PPC基共混纤维,并对其力学性能和降解性能进行了研究。

    On this basis , PPC-based blends fibers were prepared .

  7. B4C/PP共混纤维是重要的防中子辐射材料。

    B4C / PP blended fibre is an important neutron shielding composite material .

  8. 研究了PBT/PET共混纤维,就其特性粘度、结晶能力作了进一步测试讨论。

    In this paper the PBT / PET blended fiber is studied and its intrinsic viscosity , crystallinity are discussed .

  9. 利用新型改性聚酯T的常压可染性,将T与PP制成PP/T共混纤维,以改善丙纶的染色性能。

    Taking advantages of modified polyester T , who can be dyed at atmospheric pressure , it was blended with PP to improve its dyeability .

  10. PBT(聚对苯二甲酸丁二酯)共混纤维的结构与性能(Ⅱ)染色性能的研究

    The structure and properties of fibers made from PBT ( polybutylene terephthalate ) polyblends (ⅱ) studies on the dyeability

  11. PPTA与PBA共混纤维的结构性能

    Structure and properties of PPTA and PBA blend fibre

  12. 测试结果表明,随着PHA的加入,共混纤维的降解性能变好。

    Test results showed that , the degradation of blend fiber got better with the addition of PHA .

  13. 结果表明:随着共混纤维中EVA含量的增加,丝束强力显著下降,丝束间热粘接性增强。EVA和PP以各自的结晶结构结晶,未发现形成共晶。

    The result show that the tenacity and elongation at break of the fibre decrease apparently with the increasing contents of EVA and so is the heat-bondability of the fibres .

  14. 结果表明,在紫外光照射下,共混纤维中金红石型TiO2的含量越高,PP纤维断裂伸长率、断裂强度的降低和质量损失速率就越快;

    The results showed that the more rutile-type TiO2 particles the PP / TiO2 . fiber contained , the faster the ultimate elongation , tensile strength and weight mass loss were decreased .

  15. 将PTAM与聚丙烯腈(PAN)共混纺丝制得共混纤维,用酸性染料染色,考察其上染率。

    PTAM was blended with polyacrylonitrile ( PAN ) and spun into blend fiber which was dyed with acid dyestuff .

  16. 研究结果表明:当抗静电组分加入量在4.0%~5.0%(质量)时,共混纤维具有较好的抗静电性能及耐水洗性能,纤维体积比电阻降至109Ω·cm;

    It was shown that the blending fiber had good antistatic behavior and wash resistance when antistatic component content reached 4.0 %  ̄ 5.0 % . The bulk specific resistivity of blending fiber descended to 10 9 Ω· cm .

  17. PEG在PET-PEG纤维和PET/PET-PEG共混纤维中的导电机理为质子导电。

    It was concluded that the antistatic mechanism of PEG in PET - PEG fiber and PET / PET-PEG blend fibers was proton conduction .

  18. 对高HV含量PHBV采用与聚己内酯(PCL)共混纺丝的方法显著改善PHBV的可纺性,获得力学性能较好的共混纤维。

    PHBV with high HV content and PCL blend spinning method significantly improved the viscosity and its spinnability , getting a higher mechanical strength of the blend fibers .

  19. 将PA6和易水解聚酯(EHDPET)以适当比例混合,可制得以EHDPET为分散相的共混纤维。

    PA6 / easy hydrolytical polyester ( EHDPET ) blend fiber with EHDPET as disperse phase was prepared by blend spinning .

  20. 研究发现:PBT/PET共混纤维属相容性较好的相容体系,特性粘度随PBT含量的增加而增加,PBT/PET存在相互促进结晶的作用。

    It is found that the PBT / PET polyblend shows a good compatibility . Intrinsic viscosity of the blend strengthens with the increment of PBT , PET and PET promote the crystallization each other .

  21. PET-PEG嵌段共聚物纤维和PET/PET-PEG共混纤维的吸湿性和抗静电性能研究

    Studies on the hydroscopicity and antistatic property of PET-PEG block copolymer fiber and pet / pet-peg blend fiber

  22. 采用密度法,声速法,X射线衍射,强力试验仪研究了化学降解改进剂含量不同的等规聚丙烯IPP(Z30S)共混纤维的结构和性能;

    The structure and properties of fiber of IPP ( Z30S ) blent with different content of chemical degrading modifying adduct have been studied by the way of density , velocity of sound , Xray diffraction and stressmeter .

  23. 随着电压和C-SD的增加,静电纺壳聚糖-乙酸/PVA共混纤维的结晶度增加。

    With the increasing of the voltage and the C-SD , the crystal degree of electrospun chitosan-acetic acid / PVA fibers increased .

  24. 二者均为较好的压电材料,从PVDF/PA11共混纤维的可纺性和压电性两方面讨论,50wt/50wt的PVDF/PA11纤维性能最好。

    So two-polymer blend fibers were prepared . According to piezoelectricity and spinning property , we found the optimal proportion of two composites , and 50wt / 50wt PVDF / PA11 fibers were suitable .

  25. 本文对PET-PEG嵌段共聚物的可纺性、PET-PEG纤维和PET/PET-PEG共混纤维的吸湿性和抗静电性能进行了研究,探讨了共混纤维的抗静电机理。

    The spinnability of PET - PEG block copolymers and the hydroscopicity and antistatic property of PET-PEG fiber and PET / PET - PEG blend fiber were studied . Their antistatic mechanism was discussed .

  26. 研究了聚丙烯与抗静电剂PSUE共混纤维的抗静电性能、耐水洗性能、力学性能、结晶性能、染色性能及形态结构。

    The antistatic behavior , wash resistance , mechanical property , crystalline behavior , dyeability and morphology of PP fiber blending with PSUE were studied .

  27. 结果表明,随着成核剂TMP-5含量的增大,sc-PLA晶体的含量增加,共混纤维耐热性增强。

    The results showed that the content of sc-PLA crystal in the blend fibers increased with the increasing content of nucleating agent TMP-5 , which enhanced thermal-resistance of blend fibers .

  28. 力学性能实验测得当羧丁酰壳聚糖的含量为30wt%时,共混纤维的干态抗张强度达到最大值,为14.32cN/tex,纤维的湿态抗张强度随着羧丁酰壳聚糖含量的增加而降低。

    Tensile test showed that the dry fiber tensile strength of blend fibers achieve maximum value for 14.32cN/tex when the the content of D-carboxymethyl chitosan was 30wt % . The wet tensile strength of blend fibers decreased with the increasing of the content of D-carboxymethyl chitosan .

  29. 该共混纤维具有一定的机械强度和染色性能。

    This blending fiber has enough mechanical strength and dyeing property ;

  30. 提高聚乙烯醇&丝蛋白共混纤维白度及色泽鲜艳度的探讨

    How to Improve the Whiteness and Brightness of Polyvinyl Alcohol-Fibroin Fibre