Abstract
In order to research the multi-level structure of Lyocell fiber at different draw ratios and to reveal the limiting factors for preparing the high strength Lyocell fiber, the paper reports on the effect of draw ratio including low drawing (1–5), high drawing (6–11) and excessive drawing (12–20) on the multi-level structure and the mechanical properties of Lyocell fiber. The structure was determined by wide-angle X-ray diffraction, small-angle X-ray scattering and fibrillation test, and the result showed that, at low draw ratio stage, the breaking strength, yield strength and modulus of the fiber increased with the draw ratio owing to crystallinity as well as orientation increased while the micropore decreased, and there were almost no microfibrils on the fiber surface. At high draw ratio stage, the orientation of amorphous region increasing was the principal reason for the increase of fiber mechanical properties, and the micropores continued to decrease and a few short and thick microfibril was formed. At excessive draw ratio stage, the breaking strength remained constant mainly due to the basically unchanged crystallinity and orientation of the fibers, the yield strength and modulus decreased due to the slip of the highly crystallized and oriented elementary fibril. Meanwhile, the micropores still decreased and became more slender, the number of microfibrils increased and the microfibrils showed tenuous structure. It can be summarized that Lyocell fiber has the characteristics of multi-level structure, and the fundamental reason limiting the improvement of mechanical properties with draw ratio increasing is the slip of elementary fibril.
Highlights
Lyocell fiber is known as one of the most representative green fiber in the 21st century due to its natural and renewable resource advantages, clean processing technology and degradable environmental friendliness
It can be seen that the breaking strength of Lyocell fiber gradually increases to a plateau area with draw ratio increasing to 12, while the modulus and yield strength increase first and decrease slightly
The mechanical properties of fibers are directly related to the structure, the difference between breaking strength, modulus and yield strength reflects the diversity of fiber structure, it can be said that there are some uncertain structures different from previous studies, which result in diameter of the fiber decrease with draw increase, while the breaking strength increases to a plateau and the modulus and yield strength increase first and decrease
Summary
Lyocell fiber is known as one of the most representative green fiber in the 21st century due to its natural and renewable resource advantages, clean processing technology and degradable environmental friendliness. It can be seen that Lyocell fiber showed typical cellulose II crystalline structure and the diffraction pattern shown with the characteristic reflections of (-110), (110) and (020) crystal plane on the equator and the
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