CN105754183A - High-strength anti-algae fishing net - Google Patents

Abstract

The invention discloses a high-strength anti-algae fishing net.The high-strength anti-algae fishing net is prepared from polyethylene fibers, glass fibers, an epoxy resin adhesive film, nanometer argil, nanometer alumina, dihydroxypropane,dibutyl phthalate and calcium stearate.The fishing net is simple in processing technology, the polyethylene fibers are adopted as raw materials for processing, the price of the fishing net is greatly lowered, and modification treatment is conducted on the polyethylene fibers in advance, so that performance of the obtained fishing net is greatly improved; intermittent ultraviolet irradiation treatment is conducted in the polyethylene fiber treatment process, the produced fishing net can have extremely high performance of preventing alga from adhesion; the treated glass fibers are adopted, and the modified nanometer argil is combined, so that strength and toughness of the fishing net are greatly enhanced, and water resistance of the fishing net is improved; the treated epoxy resin adhesive film is added, therefore compatibility among all components can be further improved, and comprehensive properties of the fishing net are increased.

Description

A kind of high intensity Algae-resistant fishing net

Technical field

The present invention relates to fishing gear field, particularly relate to a kind of high intensity Algae-resistant fishing net.

Background technology

Fishing lines refers to the diameter weaving mesh sheet and the tie net fishing gear line less than 4 millimeters, is the main material making fishing net.Present fishing lines mainly uses nylon raw material to prepare, but nylon processing technique is complicated, and to temperature, humidity requirement harshness, yield rate is low, and nylon is relatively costly, and water absorption rate is also higher, causes fishing net perishable；And existing fishing net, intensity is low, and the life-span is short；Fishing net is subject in sea water algae to be infected, and reduces the service life of fishing net, adds the cost of investment of fisherman.

Summary of the invention

It is an object of the invention to provide a kind of high intensity Algae-resistant fishing net, be achieved through the following technical solutions:

A kind of high intensity Algae-resistant fishing net, is made up of following component: polyethylene fibre 80 parts, glass fibre 10 parts, MBS resin 10 parts, calcium carbonate powder 0.5 part, 10 parts of epoxy resin glued membrane, nanoclay 0.5 part, nano aluminium oxide 0.5 part, dihydroxypropane 6 parts, dibutyl phthalate 4 parts, calcium stearate 1 part by weight.

Further, described polyethylene fibre is through modification in advance: by the mixed in hydrochloric acid of the benzoic acid of 1% concentration and 10% concentration, again polyethylene fibre is put in above-mentioned mixed solution, heating is to 65-70 DEG C, adopt ultraviolet to carry out discontinuity radiation treatment simultaneously, after continuing 40 minutes, filter, dry；Described ultraviolet irradiation is spaced apart 5 minutes.

Further, described glass fibre is first immersed in the sodium hydroxide solution of 1.5% concentration and heats to 70-80 DEG C, after 1-1.5 hour, adds the sodium carboxymethyl cellulose that weight portion is 0.1 part, and heating is to 85-90 DEG C, after continuing 40 minutes, filters, dry.

Further, described epoxy resin glued membrane is through pretreatment: be the dodecyltrimethoxysilane of 0.1 part Homogeneous phase mixing under alkaline environment by epoxy resin glued membrane and weight portion, heating is to 260 DEG C, after continuing 15 minutes, start Slow cooling, when being cooled to 155 DEG C, it is incubated 15 minutes, continue cool to 128 DEG C, be incubated 30 minutes, be finally cooled to till room temperature.

Further, described nanoclay is through modification: by nanoclay at 160 DEG C with the dibutyl tin laurate mixed processing that weight portion is 0.5 part 15 minutes.

Further, described nanoclay granularity is 15-20nm, and the granularity of described nano aluminium oxide is 30-40nm.

Further, described MBS resin and dihydroxypropane are through blended process: by MBS resin and the blended heating of dihydroxypropane, first continuous heating is to 120 DEG C, then is slowly cooled to room temperature, and stands 1-2 hour.

Further, after described calcium carbonate powder first adopts 1.5% concentration carboxylic acid washing outer surface, dry, place into and calcine 15 minutes under 250 DEG C of high temperature.

The invention has the beneficial effects as follows: the fishing net processing technique that the present invention makes is simple, polyethylene fibre is adopted to be processed as raw material, greatly reduce the price of fishing net, by polyethylene fibre is carried out modification in advance, greatly improve the performance of the fishing net produced, by, in the process that polyethylene fibre is processed, carrying out ultraviolet and be interrupted radiation treatment, it is possible to make the fishing net made have the extremely strong performance preventing Sargassum from adhering to；By adopting the blended process of MBS resin and dihydroxypropane, coordinate treated calcium carbonate powder, the anti-algae ability of fishing net can not only be strengthened, additionally it is possible to strengthen the toughness of fishing net, improve the bearing capacity of fishing net；By adopting glass fibre after treatment, coordinate modified Nano potter's clay, strengthen intensity and the toughness of fishing net greatly, improve the resistance to water of fishing net；By adding treated epoxy resin glued membrane, it is further able to improve the compatibility between each composition, increases the combination property of fishing net；Fishing net of the present invention has excellent bearing capacity, uses scope wide.

Detailed description of the invention

A kind of high intensity Algae-resistant fishing net, is made up of following component: polyethylene fibre 80 parts, glass fibre 10 parts, MBS resin 10 parts, calcium carbonate powder 0.5 part, 10 parts of epoxy resin glued membrane, nanoclay 0.5 part, nano aluminium oxide 0.5 part, dihydroxypropane 6 parts, dibutyl phthalate 4 parts, calcium stearate 1 part by weight.

Further, described polyethylene fibre is through modification in advance: by the mixed in hydrochloric acid of the benzoic acid of 1% concentration and 10% concentration, again polyethylene fibre is put in above-mentioned mixed solution, heating is to 65-70 DEG C, adopt ultraviolet to carry out discontinuity radiation treatment simultaneously, after continuing 40 minutes, filter, dry；Described ultraviolet irradiation is spaced apart 5 minutes.

Further, described glass fibre is first immersed in the sodium hydroxide solution of 1.5% concentration and heats to 70-80 DEG C, after 1-1.5 hour, adds the sodium carboxymethyl cellulose that weight portion is 0.1 part, and heating is to 85-90 DEG C, after continuing 40 minutes, filters, dry.

Further, described epoxy resin glued membrane is through pretreatment: be the dodecyltrimethoxysilane of 0.1 part Homogeneous phase mixing under alkaline environment by epoxy resin glued membrane and weight portion, heating is to 260 DEG C, after continuing 15 minutes, start Slow cooling, when being cooled to 155 DEG C, it is incubated 15 minutes, continue cool to 128 DEG C, be incubated 30 minutes, be finally cooled to till room temperature.

Further, described nanoclay is through modification: by nanoclay at 160 DEG C with the dibutyl tin laurate mixed processing that weight portion is 0.5 part 15 minutes.

Further, described nanoclay granularity is 15-20nm, and the granularity of described nano aluminium oxide is 30-40nm.

Further, described MBS resin and dihydroxypropane are through blended process: by MBS resin and the blended heating of dihydroxypropane, first continuous heating is to 120 DEG C, then is slowly cooled to room temperature, and stands 1-2 hour.

Further, after described calcium carbonate powder first adopts 1.5% concentration carboxylic acid washing outer surface, dry, place into and calcine 15 minutes under 250 DEG C of high temperature.

The manufacture method of a kind of high intensity Algae-resistant fishing net is:

1) following component is weighed by weight: polyethylene fibre 80 parts, glass fibre 10 parts, MBS resin 10 parts, calcium carbonate powder 0.5 part, 10 parts of epoxy resin glued membrane, nanoclay 0.5 part, nano aluminium oxide 0.5 part, dihydroxypropane 6 parts, dibutyl phthalate 4 parts, calcium stearate 1 part；

2) being mixed after treatment by above-mentioned raw materials and add in extruder, one section of temperature of extruder is 200 DEG C, and two-stage nitration temperature is 220 DEG C, and three sections of temperature are 225 DEG C, and latter end temperature is 230 DEG C；3) by 2) Raw adds in spray webbing case, uses spinning appts to carry out wire drawing, then carries out drawing-off, then dry at 85-90 DEG C, then uses winding roller to be wound collecting.

Claims (8)

1. a high intensity Algae-resistant fishing net, it is characterized in that, be made up of following component by weight: polyethylene fibre 80 parts, glass fibre 10 parts, MBS resin 10 parts, calcium carbonate powder 0.5 part, 10 parts of epoxy resin glued membrane, nanoclay 0.5 part, nano aluminium oxide 0.5 part, dihydroxypropane 6 parts, dibutyl phthalate 4 parts, calcium stearate 1 part.

2. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterized in that, described polyethylene fibre is through modification in advance: by the mixed in hydrochloric acid of the benzoic acid of 1% concentration and 10% concentration, again polyethylene fibre is put in above-mentioned mixed solution, heating, to 65-70 DEG C, adopts ultraviolet to carry out discontinuity radiation treatment, after continuing 40 minutes simultaneously, filter, dry；Described ultraviolet irradiation is spaced apart 5 minutes.

3. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterized in that, described glass fibre is first immersed in the sodium hydroxide solution of 1.5% concentration and heats to 70-80 DEG C, after 1-1.5 hour, adding the sodium carboxymethyl cellulose that weight portion is 0.1 part, heating is to 85-90 DEG C, after continuing 40 minutes, filter, dry.

4. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterized in that, described epoxy resin glued membrane is through pretreatment: be the dodecyltrimethoxysilane of 0.1 part Homogeneous phase mixing under alkaline environment by epoxy resin glued membrane and weight portion, and heating is to 260 DEG C, after continuing 15 minutes, start Slow cooling, when being cooled to 155 DEG C, it is incubated 15 minutes, continues cool to 128 DEG C, it is incubated 30 minutes, is finally cooled to till room temperature.

5. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterised in that described nanoclay is through modification: by nanoclay at 160 DEG C with the dibutyl tin laurate mixed processing that weight portion is 0.5 part 15 minutes.

6. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterised in that described nanoclay granularity is 15-20nm, and the granularity of described nano aluminium oxide is 30-40nm.

7. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterized in that, described MBS resin and dihydroxypropane are through blended process: by MBS resin and the blended heating of dihydroxypropane, first continuous heating is to 120 DEG C, it is slowly cooled to room temperature again, stands 1-2 hour.

8. a kind of high intensity Algae-resistant fishing net according to claim 1, it is characterised in that after described calcium carbonate powder first adopts 1.5% concentration carboxylic acid washing outer surface, dry, places into and calcines 15 minutes under 250 DEG C of high temperature.