CN113668135B - Preparation method of warp knitting fabric with waterproof cool feeling function and product thereof - Google Patents

Abstract

The application provides a preparation method of a warp knitting fabric with a waterproof cool feeling function and a product thereof, and the preparation method comprises the steps of weaving, shaping, dyeing and shaping; the weight ratio of polyethylene fiber or terylene in the used fiber raw material is 20-100 percent; wherein, the shaping comprises water-proof treatment, and the temperature is 100-130 ℃; wherein the polyethylene fiber raw material is a montmorillonite modified dyeable polyethylene fiber. The material is creatively added with cool feeling fiber aiming at the existing waterproof fabric treatment mode, and can improve the comfort of the fabric, so that the comfort, the appearance and the comfort of the garment fabric are realized.

Description

Preparation method of warp knitting fabric with waterproof cool feeling function and product thereof

Technical Field

The application relates to the textile field, in particular to a method for preparing warp knitting fabric with a waterproof cool feeling function and a product thereof.

Background

With the improvement of the life quality of people, the demands on the functionality of the fabric are also gradually increasing. The need for comfort is also increasing while aesthetic appeal is pursued. The warm in winter and cool in summer are always a constant subject of consumer demand, and are prominent in the fields of fibers and fabrics. Along with the continuous development of cool cloth, polyethylene becomes a key material of cool cloth recently, and more modification researches on polyethylene are also carried out.

However, the existing polyethylene fiber is difficult to dye, has large difference in performance from the traditional chemical fiber, and is difficult to use simultaneously.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The application is provided in view of the technical blank of the preparation of the warp knitting fabric with the waterproof cool feeling function.

Therefore, one of the purposes of the application is to solve the defects in the prior art and provide a preparation method of the warp knitting fabric with the waterproof cool feeling function.

In order to solve the technical problems, the application provides the following technical scheme: a method for preparing warp knitting fabric with waterproof cool feeling function comprises,

warping, weaving, shaping, finishing dyeing and shaping; wherein, in the used fiber raw materials, the weight ratio of the polyethylene fiber to the surface yarn or the bottom yarn is 20-100%, and the middle yarn is 20-75D FDY polyester fiber;

wherein, the shaping comprises water-proof treatment, and the temperature is 100-130 ℃;

the polyethylene fiber is modified by montmorillonite.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: and warping, namely arranging the warping on a pan head according to the dosage of the polyethylene fibers.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the preparation method of the montmorillonite modified polyethylene fiber comprises the following steps of,

mixing montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min;

the mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, montmorillonite modified polyethylene slices are prepared, and polyethylene fibers are prepared by melt spinning;

wherein, the content of montmorillonite in the polyethylene fiber is 0.2-1.2%.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the waterproof treatment adopts a waterproof agent with the concentration of 20-50 g/L.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the finishing dyeing comprises dyeing, drying and washing; wherein the dyeing temperature is 100-130 ℃; wherein the temperature of the drying is 80-120 ℃.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the waterproof treatment is carried out, the processing process is that the temperature of the oven is adjusted to be the first 100 ℃ for pre-baking, the rest is 120 ℃ for baking, the speed of the vehicle is 30-50 yards, and the oven is cooled by cooling air blowing and cold water cylinder cooling, so that the temperature is reduced to 30-40 ℃ for stabilizing the shape.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the dyeing, which includes a warming phase; a heat preservation stage; a cooling stage;

wherein the heating stage comprises heating from 25-35 ℃, heating to 70-80 ℃ at 1-3 ℃/min, preserving heat for 5-8 min, heating to 90-110 ℃ at 2-3 ℃/min, preserving heat for 5-8 min, heating to 110-130 ℃ at 2-3 ℃/min, and preserving heat for 30-50 min.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the cooling stage comprises cooling to 90-110 ℃ at 0.5-1.5 ℃/min and preserving heat for 5-8 min, cooling to 70-90 ℃ at 1-3 ℃/min and preserving heat for 15-40 min, and cooling to 30-50 ℃ at 1.5-4 ℃/min.

As a preferable scheme of the preparation method of the warp knitting fabric with the waterproof cool feeling function, the application comprises the following steps: the shaping speed is 25-30 m/min; the specification of the fiber raw material is DTY and/or FDY, the denier of the fiber raw material is 20-300D, the head part is 1-300F, and the single fiber fineness is 0.3-1D; the water washing is water washing by adding softener.

One of the purposes of the application is to solve the defects in the prior art and provide a product prepared by a preparation method of a warp knitting fabric with a waterproof cool feeling function, wherein the weight ratio of polyethylene fibers in a surface yarn or a bottom yarn in the fiber raw material used in the product is 20-100%.

The application has the beneficial effects that:

the application obtains a functional combination effect through the combination of various raw materials and the weaving process matching with the raw materials, realizes the beautiful, health-care and safety functions of the fabric, and is particularly suitable for the development of clothing and home textile fabrics.

The product prepared by the method can have excellent functional effects of both cool feeling and water resistance. In terms of cool feeling, according to GB/T35263-2017 test specification, the instant cool feeling heat flow (W/cm) of the fabric is met ² ) Not less than 0.140, and at the same time, the waterproof grade of the fabric can be stably guaranteed to be 4.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

In the following examples, the products are commercially available unless otherwise specified.

Example 1:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

The designed material is manufactured by taking 20 parts by weight of polyethylene fiber 75/72 DTY and 80 parts by weight of common polyester 75/144 DTY as raw materials of face yarns, adopting 50D FDY common polyester as a middle yarn and adopting common polyester 75/144 DTY as a bottom yarn as raw materials through weaving, shaping, dyeing and finishing processes.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance detection, and the results are shown in table 1 below:

TABLE 1

Example 2:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

The designed material is manufactured by taking 40 parts by weight of polyethylene fiber 75/72 DTY and 60 parts by weight of common polyester 75/144 DTY as raw materials of face yarn, adopting 50D FDY common polyester as the middle yarn and adopting common polyester 75/144 DTY as the bottom yarn through weaving, shaping, dyeing and finishing and sewing processes.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance detection, and the results are shown in table 2 below:

TABLE 2

Example 3:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

60 parts by weight of polyethylene fiber 75/72 DTY and 40 parts by weight of common polyester 75/144 DTY are used as raw materials of the surface yarn, 50D FDY common polyester is used as the middle yarn, and 75/144 DTY is used as the bottom yarn, and the designed material is manufactured through weaving, shaping, dyeing and finishing and sewing processes.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance detection, the results of which are shown in table 3 below:

TABLE 3 Table 3

Example 4:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

The designed material is manufactured by taking 80 parts by weight of polyethylene fiber 75/72 DTY and 20 parts by weight of common polyester 75/144 DTY as raw materials of face yarn, adopting 50D FDY common polyester as the middle yarn and adopting common polyester 75/144 DTY as the bottom yarn through weaving, shaping, dyeing and finishing and sewing processes.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance testing, the results of which are shown in table 4 below:

TABLE 4 Table 4

Example 5:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

The designed material is prepared by taking 100 parts by weight of polyethylene fiber 75/72 DTY as a surface yarn raw material, adopting 50D FDY common polyester as a middle yarn and adopting common polyester 75/144 DTY as a bottom yarn as a raw material through weaving, shaping, dyeing and finishing and sewing processes.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance detection, and the results are shown in table 5 below:

TABLE 5

When the usage amount of the surface yarn polyethylene fiber reaches 80%, the cool feeling effect is basically stable, and the hand feeling of the fabric can be improved by adding a certain amount of 75D/144F polyester fiber, so that the usage amount of the polyethylene fiber is determined to be 80% of that of the surface yarn.

Example 6:

modification of polyethylene fibers: the preparation method of the dyeable polyethylene fiber modified by montmorillonite comprises the steps of mixing montmorillonite and polyethylene powder to prepare the montmorillonite modified polyethylene polymer material. Firstly, premixing, namely mixing a certain amount of montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min.

The mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, the montmorillonite modified polyethylene slice is prepared, and the polyethylene fiber is prepared by melt spinning, wherein the content of montmorillonite in the polyethylene fiber is 1.2%.

The designed material is manufactured by taking 80 parts by weight of polyethylene fiber 75/72 DTY and 20 parts by weight of common polyester 75/144 DTY as the raw materials of the base yarn, adopting 50D FDY common polyester as the middle yarn and adopting common polyester 75/144 DTY as the raw materials of the face yarn through the processes of weaving, shaping, dyeing and finishing.

The specification of the terylene DTY is 75D/144F, and the specification of the polyethylene fiber DTY is 75D/72F.

The shaping temperature of the shaping process is 130 ℃, and the shaping speed is 28m/min.

The dyeing and finishing process comprises the following process steps: feeding into a dye vat (dyeing temperature is 120 ℃), drying (temperature is 110 ℃), washing with water, drying (temperature is 110 ℃) and adopting tannic acid to treat softening agent.

The dyeing process comprises the following dye components in parts by mass: 0.04 part by mass of disperse yellow, 0.0152 part by mass of disperse red, 0.022 part by mass of disperse blue and 0.5 part by mass of 98% glacial acetic acid. The temperature control of the dyeing process is as follows: the initial temperature is 30 ℃, the temperature is heated to 80 ℃ at 2 ℃/min, the temperature is kept for 5min, the temperature is further heated to 100 ℃ at 1.5 ℃/min, the temperature is kept for 6min, the temperature is further heated to 120 ℃ at 2 ℃/min, the temperature is kept for 40min, the temperature is further reduced to 110 ℃ at 1 ℃/min, the temperature is kept for 6min, the temperature is further reduced to 80 ℃ at 1.5 ℃/min, the temperature is kept for 20min, and the temperature is finally reduced to 33 ℃ at 2 ℃/min.

Waterproof after finishing: the waterproof requirement after dyeing and drying is as follows in the 4-stage process: the waterproofing agent is prepared according to 30g/L, the temperature of the oven is adjusted to be the first 100 ℃ for prebaking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the waterproofing agent is discharged out of the oven and cooled by cooling air and cold water cylinder, so that the temperature is reduced to 35 ℃ for stabilizing the form.

The fabric obtained was subjected to targeted performance detection, and the results are shown in table 6 below:

TABLE 6

When the bottom yarn is made of polyethylene, the cool feeling effect is slightly poor, and the surface flexibility of the surface yarn is stronger mainly because the surface yarn is subjected to soft treatment, so that the cool feeling fiber functionality is brought into play.

Example 7:

based on example 4, polyethylene fiber was modified: the process is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, and the content of montmorillonite in the polyethylene fiber is 0.2 percent

The fabric obtained was subjected to targeted performance detection, and the results are shown in the following table:

TABLE 7

Example 8:

based on example 4, polyethylene fiber was modified: the process is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, and the content of montmorillonite in the polyethylene fiber is 0.6 percent

The fabric obtained was subjected to targeted performance detection, and the results are shown in the following table:

TABLE 8

Example 9:

based on example 4, polyethylene fiber was modified: the process is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, and the content of montmorillonite in the polyethylene fiber is 1.4 percent

The fabric obtained was subjected to targeted performance detection, and the results are shown in the following table:

TABLE 9

Example 10:

based on example 4, polyethylene fiber was modified: the process is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, and the content of montmorillonite in the polyethylene fiber is 2.0 percent

The fabric obtained was subjected to targeted performance detection, and the results are shown in the following table:

table 10

The color fastness of the fabric is not increased by continuously increasing the content of montmorillonite, and at the moment, the mechanical properties of the fiber are deteriorated due to the fact that the content of montmorillonite is too high, and phenomena of yarn hairiness and yarn floating occur in the spinning process, so that the quality of the fiber is not improved.

The polyethylene fiber is not a common material in the field for preparing the fabric, the cool fabric is mainly realized by physically modifying the fiber, such as adding jade powder and other materials, and the application difficulty is that the polyethylene fiber is difficult to dye. The montmorillonite modified fiber dyeing technology is applied to polypropylene fibers more and is relatively less in the field of polyethylene fibers, and the dyeing modification of the polyethylene fibers and the application of the polyethylene fibers to the preparation of cool fabric are innovative.

The fiber modified by the montmorillonite has a hole effect, the heat conductivity of the fiber is increased under certain humidity, the rapid heat transfer is facilitated, and the heat absorption performance of the fiber is actually improved.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (5)

1. A preparation method of a warp knitting fabric with a waterproof cool feeling function is characterized by comprising the following steps: comprising the steps of (a) a step of,

warping, weaving, shaping, finishing dyeing and shaping; wherein, in the used fiber raw materials, the weight ratio of polyethylene fiber to flour is 80 percent, and the weight ratio of common terylene 75D/144F DTY to flour is 20 percent; the middle yarn adopts 50D FDY polyester fiber; the base yarn adopts common polyester 75D/144F DTY as a raw material;

the shaping is carried out at 130 ℃ and the shaping speed is 28m/min;

the preparation method comprises the steps of mixing montmorillonite and polyethylene powder in a premixing machine for 20 minutes, wherein the rotating speed of the premixing machine is 300r/min; the mixed powder is realized by a double screw extrusion process, the processing temperature is 135-155 ℃, montmorillonite modified polyethylene slices are prepared, and polyethylene fibers are prepared by melt spinning; wherein, the content of montmorillonite in the polyethylene fiber is 1.2 percent;

the finishing dyeing comprises dyeing, drying and washing; wherein the dyeing is carried out at a temperature of 120 ℃; the temperature of the drying is 110 ℃;

the dyeing, which includes a warming phase; a heat preservation stage; a cooling stage; wherein the heating stage comprises heating from 30deg.C to 80deg.C at 2deg.C/min and maintaining for 5min, heating to 100deg.C at 1.5deg.C/min and maintaining for 6min, heating to 120deg.C at 2deg.C/min, and maintaining for 40min; the cooling stage comprises cooling to 110 ℃ at 1 ℃/min and preserving heat for 6min, cooling to 80 ℃ at 1.5 ℃/min and preserving heat for 20min, and cooling to 33 ℃ at 2 ℃/min.

2. The method for preparing the warp knitting fabric with the waterproof cool feeling function according to claim 1, which is characterized in that: the waterproof agent also comprises waterproof treatment, wherein the concentration of the adopted waterproof agent is 30g/L.

3. The method for preparing the warp knitting fabric with the waterproof cool feeling function according to claim 2, which is characterized in that: the waterproof treatment is carried out, the processing process is that the temperature of the oven is adjusted to be the first 100 ℃ for pre-baking, the rest is 120 ℃ for baking, the speed of the vehicle is 48 yards, and the temperature is reduced to 35 ℃ by cooling air blowing and cooling the cold water cylinder after the vehicle is discharged from the oven.

4. The method for preparing the warp knitting fabric with the waterproof cool feeling function according to claim 1, which is characterized in that: the water washing is water washing by adding softener.

5. The warp knitted fabric with waterproof cool feeling function prepared by the preparation method of any one of claims 1-4.