A kind of nylon fabrics mould inhibitor
Technical field
The invention belongs to textile technology field, be specifically related to a kind of nylon fabrics mould inhibitor.
Background technology
Along with the development of society, the raising of economic level, large-scale light industry enterprise particularly textile enterprise's quantity rolls up.Textiles is various in style, and majority easily goes mouldy, as cotton, fiber crops, hair, vinylon, nylon, acrylic fibers spray silk etc.Thus the storage of textile product and raw material also becomes a difficult problem for these enterprises.In order to the control that textile product goes mouldy, many factories have to strengthen the administration of health of whole process from raw material to Product processing.But under many circumstances, control the initial contamination amount of microorganism or arrange and be allly unfavorable for what the environmental condition of growth of microorganism normally can not be accomplished, also needing to use mould inhibitor to control the pollution and harm of microorganism to production environment, material, product.
Summary of the invention
The invention provides a kind of nylon fabrics mould inhibitor, for preventing going mouldy of nylon fabrics.
The invention provides a kind of nylon fabrics mould inhibitor, described mould inhibitor is made up of each component of following mass fraction: butyl titanate 4-6 part, sodium acetate 10-15 part, ammonium perchlorate 2-3 part, glycerine 3-5 part, vinylacetate 8-10 part, ethanol 30-40 part.
Preferably, described mould inhibitor is made up of each component of following mass fraction: butyl titanate 5 parts, sodium acetate 12 parts, ammonium perchlorate 2.5 parts, glycerine 4 parts, vinylacetate 9 parts, ethanol 35 parts.
Further, described mould inhibitor also comprises 2-3 part p-nitrophenol.
Second object of the present invention is to provide the preparation method of above-mentioned mould inhibitor, that butyl titanate 4-6 part, ethanol 30-40 part are heated to 80-90 DEG C, stir 1-2 hour, add sodium acetate 10-15 part, ammonium perchlorate 2-3 part more successively, stir after 0.5-1 hour, be cooled to 70-75 DEG C, add glycerine 3-5 part, vinylacetate 8-10 part stirs, obtain after being cooled to room temperature.
3rd object of the present invention is to provide the preparation method of above-mentioned mould inhibitor, that butyl titanate 4-6 part, ethanol 30-40 part are heated to 80-90 DEG C, stir 1-2 hour, add sodium acetate 10-15 part, ammonium perchlorate 2-3 part, p-nitrophenol 2-3 part more successively, stir after 0.5-1 hour, be cooled to 70-75 DEG C, add glycerine 3-5 part, vinylacetate 8-10 part stirs, obtain after being cooled to room temperature.
Apply the mouldization problem that mould inhibitor of the present invention can well solve nylon fabrics, permanent mildew-resistant can be reached.And Heat stability is good, not easy to change, meet normal production technology temperature requirement.
Detailed description of the invention
Following embodiment is convenient to understand the present invention better, but does not limit the present invention.Experimental technique in following embodiment, if no special instructions, is conventional method.
embodiment 1
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 5kg, sodium acetate 12kg, ammonium perchlorate 2.5kg, glycerine 4kg, vinylacetate 9kg, ethanol 35kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 5kg, ethanol 35kg are heated to 85 DEG C, stir 1.5 hours, add sodium acetate 12kg, ammonium perchlorate 2.5kg more successively, stir after 0.5 hour, be cooled to 72 DEG C, add glycerine 4kg, vinylacetate 9kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
embodiment 2
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 4kg, sodium acetate 10kg, ammonium perchlorate 3kg, glycerine 5kg, vinylacetate 8kg, ethanol 40kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 4kg, ethanol 40kg are heated to 80 DEG C, stir 2 hours, add sodium acetate 10kg, ammonium perchlorate 3kg more successively, stir after 1 hour, be cooled to 75 DEG C, add glycerine 5kg, vinylacetate 8kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
embodiment 3
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 6kg, sodium acetate 15kg, ammonium perchlorate 2kg, glycerine 3kg, vinylacetate 10kg, ethanol 30kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 6kg, ethanol 30kg are heated to 90 DEG C, stir 1 hour, add sodium acetate 15kg, ammonium perchlorate 2kg more successively, stir after 0.5 hour, be cooled to 70 DEG C, add glycerine 3kg, vinylacetate 10kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
embodiment 4
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 6kg, sodium acetate 15kg, ammonium perchlorate 2kg, glycerine 3kg, vinylacetate 10kg, p-nitrophenol 2kg, ethanol 30kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 6kg, ethanol 30kg are heated to 90 DEG C, stir 1 hour, add sodium acetate 15kg, ammonium perchlorate 2kg, p-nitrophenol 2kg more successively, stir after 0.5 hour, be cooled to 70 DEG C, add glycerine 3kg, vinylacetate 10kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
embodiment 5
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 5kg, sodium acetate 12kg, ammonium perchlorate 2.5kg, glycerine 4kg, vinylacetate 9kg, p-nitrophenol 2kg, ethanol 35kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 5kg, ethanol 35kg are heated to 85 DEG C, stir 1.5 hours, add sodium acetate 12kg, ammonium perchlorate 2.5kg, p-nitrophenol 2kg more successively, stir after 0.5 hour, be cooled to 72 DEG C, add glycerine 4kg, vinylacetate 9kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
embodiment 6
Nylon fabrics mould inhibitor formula provided by the invention is as follows: butyl titanate 4kg, sodium acetate 13kg, ammonium perchlorate 3kg, glycerine 3kg, vinylacetate 8kg, p-nitrophenol 3kg, ethanol 40kg.
The preparation method of nylon fabrics mould inhibitor provided by the invention is as follows: butyl titanate 4kg, ethanol 40kg are heated to 80 DEG C, stir 2 hours, add sodium acetate 13kg, ammonium perchlorate 3kg, p-nitrophenol 3kg more successively, stir after 1 hour, be cooled to 75 DEG C, add glycerine 3kg, vinylacetate 8kg stirs, after being cooled to room temperature, obtain nylon fabrics mould inhibitor of the present invention.
Last it is noted that the foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, although with reference to previous embodiment to invention has been detailed description, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.