PPTA fibres have high axial tensile strength,but the transverse links at the macromolecularlevel of the fibres are low.The high orientation and crystallization of the PPTA fibres leads to alow resistance to bending fa...PPTA fibres have high axial tensile strength,but the transverse links at the macromolecularlevel of the fibres are low.The high orientation and crystallization of the PPTA fibres leads to alow resistance to bending fatigue.A comparative study on fatigue behaviour of PPTA fibres and modified PPTA fibres weremade by rotating fibre over a pin.The resistant properties of the PPTA fibre to the bending fa-tigue are low,but can be improved by modification.The morphological differences of the deformation processes of the PPTA fibres and modi-fied PPTA fibres as they are tensioned in a monofilament from after being knotted are shown.The properties of resistance to bending fatigue of the different PPTA fibres can be evaluatedby comparing the morphologies of the tensile broken ends of these fibres after knotting.展开更多
The morphology of PPTA pulp is investigated by means of optical microscope and scanningelectron microscope (SEM). It shows that PPTA pulp has feather-like branch, needle point-likeend, and irregular cross-section, whi...The morphology of PPTA pulp is investigated by means of optical microscope and scanningelectron microscope (SEM). It shows that PPTA pulp has feather-like branch, needle point-likeend, and irregular cross-section, which are very important for PPTA pulp as a reinforcer. Theseparation limitation of PPTA pulp is also investigated from both torn and brittle break cross-sec-tion. A packing mechanism is proposed to illustrate the microfibril packing in the gel system.展开更多
文摘PPTA fibres have high axial tensile strength,but the transverse links at the macromolecularlevel of the fibres are low.The high orientation and crystallization of the PPTA fibres leads to alow resistance to bending fatigue.A comparative study on fatigue behaviour of PPTA fibres and modified PPTA fibres weremade by rotating fibre over a pin.The resistant properties of the PPTA fibre to the bending fa-tigue are low,but can be improved by modification.The morphological differences of the deformation processes of the PPTA fibres and modi-fied PPTA fibres as they are tensioned in a monofilament from after being knotted are shown.The properties of resistance to bending fatigue of the different PPTA fibres can be evaluatedby comparing the morphologies of the tensile broken ends of these fibres after knotting.
文摘The morphology of PPTA pulp is investigated by means of optical microscope and scanningelectron microscope (SEM). It shows that PPTA pulp has feather-like branch, needle point-likeend, and irregular cross-section, which are very important for PPTA pulp as a reinforcer. Theseparation limitation of PPTA pulp is also investigated from both torn and brittle break cross-sec-tion. A packing mechanism is proposed to illustrate the microfibril packing in the gel system.
