CN106835692A - A kind of postfinishing process of antifouling and antibiosis fabric - Google Patents

Abstract

The invention discloses a kind of postfinishing process of antifouling and antibiosis fabric, successively including singeing step, desizing operation, mercerizing process, liquefied ammonia operation, washing step, auxiliary agent functional treatment operation, shrinking processes, auxiliary agent functional treatment operation comprises the following steps：（a）Auxiliary agent prepares operation,（b）Padding operation.The present invention has advantages below and effect：By padding anti-soil agent and antibacterial finishing agent to fabric so that fabric has good and lasting antifouling property and anti-microbial property after Final finishing；Nano silver dispersion is processed by ultrasonic cell disruptor simultaneously, is conducive to the more Nano Silvers of fibers adsorption, so as to improve the anti-microbial property of fabric.

Description

A kind of postfinishing process of antifouling and antibiosis fabric

Technical field

The present invention relates to fabric field, more particularly to a kind of postfinishing process of antifouling and antibiosis fabric.

Background technology

At present, application publication number is CN103290683A, and Shen Qing Publication day is that in September, 2013 Chinese patent of 11 days is disclosed A kind of antimicrobial form Water-proof and oil-proof, the production method of antifouling fabric, comprise the following steps：Padding finishing agent；Dry, bake；It is cold But, pad；Dry, bake；Go out cloth.

This antimicrobial form Water-proof and oil-proof, antifouling fabric constantly washing during, its Water-proof and oil-proof, anti-fouling effect meeting Reduce, its durability is poor.

The content of the invention

It is an object of the invention to provide a kind of postfinishing process of antifouling and antibiosis fabric, its is antifouling anti-for holding that can be lasting Bacterium performance.

Above-mentioned technical purpose of the invention technical scheme is that：After a kind of antifouling and antibiosis fabric Finishing technique, successively including singeing step, desizing operation, mercerizing process, liquefied ammonia operation, washing step, auxiliary agent functional treatment Operation, shrinking processes, auxiliary agent functional treatment operation comprise the following steps：（a）Auxiliary agent prepares operation：Step a1, prepares antifouling Finishing agent, anti-soil agent is made up of anti-fouling agent and catalyst, and the content that anti-fouling agent is is 15g/L, and the content of catalyst is 2g/L；Step a2, prepares antibacterial finishing agent, antibacterial finishing agent is made up of antiseptic and nonionic crosslinking agent, and antiseptic contains It is 10g/L to measure, and the content of crosslinking agent is 3g/L；Step a3, preparation work liquid, working solution is by softening agent, antistatic additive, deep-dyeing agent And acetic acid composition, and the content of softening agent is 30g/L, the content of antistatic additive is 15g/L, and the content of deep-dyeing agent is 4g/L, The content of acetic acid is 1g/L；（b）Padding operation：Step b1, pads anti-soil agent, and anti-soil agent and work are added in water Liquid, the concentration of anti-soil agent is 120g/L, and the concentration of working solution is 6g/L, under conditions of pH value is for acidity, using two leachings Two modes rolled, pick-up 75%；Step b2, after carrying out hot-air seasoning at a temperature of 120 DEG C, bakees at a temperature of 180 DEG C 50s；Step b3, pads antibacterial finishing agent, and antibacterial finishing agent is added in water, and the concentration of antibacterial finishing agent is 80g/L, is in PH Under conditions of alkalescence, by the way of an immersing and rolling, pick-up is 70%；Step b4, is dried to fabric.

By using such scheme, by padding anti-soil agent and antibacterial finishing agent to fabric so that fabric is rear whole There is good and lasting antifouling property and anti-microbial property after reason；Working solution is added in step b1, it is possible to increase fabric simultaneously Smooth degree, prevents from causing electrostatic to gather in drying course, and reduces damage of the fabric in subsequently whole operation is done, and prevents Fabric color shoals during washing, and the acetic acid in working solution can increase the damage-resistant of fiber.

The further setting of the present invention is：In step a1, anti-fouling agent is polyethylene terephthalate anti-fouling agent.

By using such scheme, the fabric arranged by polyethylene terephthalate anti-fouling agent, with good hydrophilic Property, soil resistance and antistatic behaviour, and feel is smooth, softness.

The further setting of the present invention is：In step a2, the antiseptic is formed by nano-silver colloid and water configuration Nano silver dispersion, the concentration of nano silver dispersion is 10g/L.

By using such scheme, antibacterial can be divided into the antibacterial of contact antibacterial and photocatalysis antibacterial, metal and its ion Effect belongs to contact antibacterial, and in the case where metal and its ion are for ability that is sterilized and suppressing pathogen, nano-silver ionic just has Stronger antibacterial effect, occupies an leading position on inorganic antiseptic so that the fabric for arranging has good and lasting antibacterial Effect.

The further setting of the present invention is：In step a2, nano silver dispersion processes 1-8 through ultrasonic cell disruptor It is secondary.

There is larger specific surface area by using such scheme, nano-Ag particles, reunion be easily dispersed each other, By ultrasonic cell disruptor, aggregate depolymerization can be made and be in nano-scale, be beneficial to the more Nano Silvers of fibers adsorption, when Ultrasonic cell disruptor is more to the number of processes of nano silver dispersion, and the discreteness of nano-Ag particles size is just smaller, more Facilitate the more Nano Silvers of fibers adsorption.

The further setting of the present invention is：In step b1, dipping temperature is 40-70 DEG C, and dip time is 40min.

The further setting of the present invention is：In step b4, the drying mode for using dries for room temperature, 80 DEG C of drying, decatizes In any one；Steam temperature is 85 DEG C, relative humidity 40%.

In sum, the invention has the advantages that：By padding anti-soil agent and antibacterial finishing agent to fabric, So that fabric has good and lasting antifouling property and anti-microbial property after Final finishing；Pass through ultrasonic cell disruptor simultaneously Treatment nano silver dispersion, is conducive to the more Nano Silvers of fibers adsorption, so as to improve the anti-microbial property of fabric.

Specific embodiment

Embodiment 1, a kind of postfinishing process of antifouling and antibiosis fabric, successively including singeing step, desizing operation, mercerizer Sequence, liquefied ammonia operation, washing step, auxiliary agent functional treatment operation, shrinking processes.Wherein auxiliary agent functional treatment operation is included Following steps：（a）Auxiliary agent prepares operation,（b）Padding operation.

In auxiliary agent prepares operation, including step a1, anti-soil agent is prepared, anti-soil agent is by anti-fouling agent and catalyst Composition, and the content that anti-fouling agent is is 15g/L, the content of catalyst is 2g/L, and in this step, anti-fouling agent is ethylene Diester anti-fouling agent.Step a2, prepares antibacterial finishing agent, and antibacterial finishing agent is made up of antiseptic and nonionic crosslinking agent, and antibacterial The content of agent is 10g/L, and the content of crosslinking agent is 3g/L, and wherein antiseptic is the Nano Silver configured by nano-silver colloid and water Dispersion liquid, the concentration of nano silver dispersion is 10g/L.Step a3, preparation work liquid, working solution is by softening agent, antistatic additive, increasing Deep agent and acetic acid are constituted, and the content of softening agent is 30g/L, and the content of antistatic additive is 15g/L, and the content of deep-dyeing agent is 4g/L, the content of acetic acid is 1g/L.

In padding operation, anti-soil agent is padded, anti-soil agent and working solution are added in water, anti-soil agent Concentration is 120g/L, and the concentration of working solution is 6g/L, under conditions of pH value is for acidity, by the way of two leachings two are rolled, rolls remaining Rate 75%；Step b2, after carrying out hot-air seasoning at a temperature of 120 DEG C, 50s is bakeed at a temperature of 180 DEG C；Step b3, leaching Antibacterial finishing agent is rolled, antibacterial finishing agent is added in water, the concentration of antibacterial finishing agent is 80g/L, under conditions of PH is for alkalescence, By the way of an immersing and rolling, pick-up is 70%；Step b4, is dried to fabric.And in step b1, padding temperature is 40-70 DEG C, dip time is 40min.

Before step b1 operations, nano silver dispersion is by 1 time after ultrasonic pretreatment, the average particulate diameter of Nano Silver In 150mm, dispersion index is 0.375.And when drying by the way of greenhouse dries.Fabric is done by this mode Dry, the antimicrobial efficiency of fabric is 67%, and the whiteness of fabric is 67.

Embodiment 2, the difference with embodiment 1 is that, using ultrasonic cell disruptor, nano silver dispersion passes through 1 time after ultrasonic pretreatment, in 150mm, dispersion index is 0.375 to the average particulate diameter of Nano Silver.And used in drying 80 DEG C of modes of drying.Nano silver solution is dried by this mode through 1 ultrasonic wave to fabric, and the antimicrobial efficiency of fabric is 68%, the whiteness of fabric is 71.

Embodiment 3, the difference with embodiment 1 is to be passed through using ultrasonic cell disruptor nano silver dispersion 1 time after ultrasonic pretreatment, in 150mm, dispersion index is 0.375 to the average particulate diameter of Nano Silver.And when drying, in vapour It is 85 DEG C to steam temperature, under conditions of relative humidity 40%, by the way of decatize.Fabric is dried by this mode, fabric Antimicrobial efficiency be 68%, the whiteness of fabric is 74.

Comparing embodiment 1 arrives embodiment three, draws when being dried to fabric by decatize mode, is ensureing that fabric has During good antibacterial effect, the whiteness of fabric is also of a relatively high.

Embodiment 4, the difference with embodiment 3, using ultrasonic cell disruptor, nano silver dispersion is by ultrasound 3 times after ripple pretreatment.In 104mm, dispersion index is 0.356 to the average particulate diameter of Nano Silver.

Embodiment 5, the difference with embodiment 3, using ultrasonic cell disruptor, nano silver dispersion is by ultrasound 5 times after ripple pretreatment.In 51mm, dispersion index is 0.138 to the average particulate diameter of Nano Silver.

Embodiment 6, the difference with embodiment 3, using ultrasonic cell disruptor, nano silver dispersion is by ultrasound 7 times after ripple pretreatment.In 42mm, dispersion index is 0.108 to the average particulate diameter of Nano Silver.

Embodiment 7, the difference with embodiment 3, using ultrasonic cell disruptor, nano silver dispersion is by ultrasound 8 times after ripple pretreatment.In 30mm, dispersion index is 0.016 to the average particulate diameter of Nano Silver.

Implement 3 to embodiment 7 by comparing, with the increase that nano silver dispersion passes through ultrasonic pretreatment number of times, receive The average particulate diameter of meter Yin is sequentially reduced, and dispersion index is also to reduce successively.Repeatedly surpass by Nano Silver dispersion Sound wave is pre-processed, and is conducive to the more Nano Silvers of fibers adsorption, so as to improve the anti-microbial property of fabric.

This specific embodiment is only explanation of the invention, and it is not limitation of the present invention, people in the art Member can make the modification without creative contribution to the present embodiment as needed after this specification is read, but as long as at this All protected by Patent Law in the right of invention.

Claims (6)

1. a kind of postfinishing process of antifouling and antibiosis fabric, successively including singeing step, desizing operation, mercerizing process, liquefied ammonia work Sequence, washing step, auxiliary agent functional treatment operation, shrinking processes, it is characterised in that：Auxiliary agent functional treatment operation includes as follows Step：

（a）Auxiliary agent prepares operation：

Step a1, prepares anti-soil agent, and anti-soil agent is made up of anti-fouling agent and catalyst, and the content that anti-fouling agent is is 15g/L, the content of catalyst is 2g/L；

Step a2, prepares antibacterial finishing agent, and antibacterial finishing agent is made up of antiseptic and nonionic crosslinking agent, and antiseptic content It is 10g/L, the content of crosslinking agent is 3g/L；

Step a3, preparation work liquid, working solution is made up of softening agent, antistatic additive, deep-dyeing agent and acetic acid, and softening agent contains It is 30g/L to measure, and the content of antistatic additive is 15g/L, and the content of deep-dyeing agent is 4g/L, and the content of acetic acid is 1g/L；

（b）Padding operation：

Step b1, pads anti-soil agent, and anti-soil agent and working solution are added in water, and the concentration of anti-soil agent is 120g/L, the concentration of working solution is 6g/L, under conditions of pH value is for acidity, by the way of two leachings two are rolled, pick-up 75%；

Step b2, after carrying out hot-air seasoning at a temperature of 120 DEG C, 50s is bakeed at a temperature of 180 DEG C；

Step b3, pads antibacterial finishing agent, and antibacterial finishing agent is added in water, and the concentration of antibacterial finishing agent is 80g/L, is in PH Under conditions of alkalescence, by the way of an immersing and rolling, pick-up is 70%；

Step b4, is dried to fabric.

2. the postfinishing process of a kind of antifouling and antibiosis fabric according to claim 1, it is characterised in that：In step a1, Anti-fouling agent is polyethylene terephthalate anti-fouling agent.

3. the postfinishing process of a kind of antifouling and antibiosis fabric according to claim 1, it is characterised in that：In step a2, The antiseptic is the nano silver dispersion configured by nano-silver colloid and water, and the concentration of nano silver dispersion is 10g/L.

4. the postfinishing process of a kind of antifouling and antibiosis fabric according to claim 3, it is characterised in that：In step a2, Nano silver dispersion is processed 1-8 times through ultrasonic cell disruptor.

5. the postfinishing process of a kind of antifouling and antibiosis fabric according to claim 4, it is characterised in that：In step b1, leaching Temperature is rolled for 60 DEG C, and dip time is 40min.

6. the postfinishing process of a kind of antifouling and antibiosis fabric according to claim 5, it is characterised in that：In step b4, adopt Drying mode be room temperature dry, 80 DEG C of drying, any one in decatizes；Steam temperature is 85 DEG C, relative humidity 40%.