A kind of high-strength low-elongation nylon 6 staple fiber and preparation method thereof

Abstract

The invention relates to a high-strength and low-stretch nylon 6 staple fiber and a preparation method thereof. The method is as follows: spinning high-strength and low-stretch nylon 6 melt to obtain high-strength and low-stretch nylon 6 staple fiber, and the high-strength and low-stretch nylon 6 is prepared from a mixture It is prepared by enhanced powder surface chain growth reaction, ring-opening pre-condensation reaction, final polycondensation reaction and viscosity-increasing reaction. The mixture is mainly composed of caprolactam, reinforced powder coated with a catalyst on the surface and water. The linear density of the nylon 6 staple fiber is 0.89-2.22dtex, the breaking strength is ≥6.0cN / dtex, and the breaking elongation is ≤45%. A high-strength and low-elongation nylon 6 staple fiber and a preparation method thereof of the present invention, the reinforcing powder enhances the mechanical properties of the nylon 6 staple fiber, and the chain growth reaction on the surface of the reinforcing powder makes the reinforcing powder have good dispersibility in the fiber, thereby making the The finally prepared high-strength and low-elongation nylon 6 staple fiber has good mechanical properties, uniform strength distribution and high quality.

Description

technical field [0001] The invention belongs to the field of polyamide preparation, and relates to a high-strength and low-elongation nylon 6 staple fiber and a preparation method thereof. Background technique [0002] Nylon is the trade name of polyamide fiber, also known as nylon (Nylon), the English name Polyamide (abbreviated as PA), and its basic composition is aliphatic polyamide linked by amide bonds (-[NHCO]-). Commonly used nylon fibers can be divided into two categories. One type is polyhexamethylene adipate obtained by polycondensation of diamine and diacid. The chemical structure formula of its long-chain molecule is: H-[HN(CH 2 )XNHCO(CH 2 )YCO]-OH, the other is obtained by polycondensation or ring-opening polymerization of caprolactam, and the chemical structural formula of its long-chain molecules is: H-[NH(CH2)XCO]-OH. The moisture absorption and dyeing properties of nylon are better than those of polyester. It is alkali resistant but not acid resistant, a...

AI Technical Summary

Problems solved by technology

Although the above patents have carried out high-strength modification of nylon 6, the modification method is basically prepared by adding additives and blending. The dispersion of additives in the fiber is not good, resulting in poor tensile strength distribution. Uniform, low durability

[0005] There are also the following problems in the preparation of existing high-strength and low-elongation nylon 6 fibers: 1) using high-viscosity slices to prepare nylon is a common method to improve its strength, but due to the improvement of its relative viscosity, its flowability at a certain temperature It will also become worse. In order to make it spin normally, the spinning temperature has to be increased, but increasing the spinning temperature will easily cause the degradation of the polymer molecular chain, so the degree of improvement in its strength is limited; 2) In order to increase the strength, it will be in the polymer. Add some functional masterbatches, but the functional masterbatches often have uneven dispersion, which makes the distribution of fiber crystallization regions different, resulting in uneven breaking strength of fibers