CN107313258A - A kind of silk fabric refining is with low bubble alkali-resistant penetrant - Google Patents

Abstract

The invention discloses a kind of silk fabric refining with low bubble alkali-resistant penetrant, it is related to textile process auxiliary agent technical field, is made up of the raw material of following parts by weight：10 20 parts of poly-aspartic-acid/poly glycol monomethyl ether, modified 15 parts of PLURONICS F87,15 parts of polyglutamic acid, 15 parts of hydroxyethyl cellulose, 0.5 1 parts of hydroxypropyl PASELLI EASYGEL, 0.5 1 parts of rilanit special, 0.1 0.5 parts of sodium gluconate, 0.05 0.2 parts of Tea Polyphenols.Bleeding agent good water solubility of the present invention, alkali resistance and permeability are strong, and low bubble, easily rinsing, rinsing water amount is reduced, coordinates refinery practice effectively to remove the spot being stained with before slurry, the colouring agent added in natural impurity contained on fabric, weaving process, and dyeing and finishing processing.

Description

A kind of silk fabric refining is with low bubble alkali-resistant penetrant

Technical field：

The present invention relates to textile process auxiliary agent technical field, and in particular to a kind of silk fabric refining steeps alkaline-resisting infiltration with low Agent.

Background technology：

The purpose of silk fabric refining is to utilize chemical reagent, coordinates physics, machinery effect, is removed contained on fabric Natural impurity (mainly silk gum, pigment, wax, inorganic matter etc.), the slurry, the colouring agent that add in weaving process, Yi Jiran The spot (such as greasy dirt, rust stain) being stained with before whole processing, obtains that gloss fertilizer is bright, soft, whiteness is pure, lines is clear, ooze The white product of the good white silk of permeability, or provide the second best in quality semi-products for dyeing, stamp.

Refining agent is usually to be formed by the surfactant compound of different performance, right with the continuous progress of printing technology The requirement of refining agent performance is also improved constantly, and it is not required nothing more than should have good wetting infiltration, emulsion dispersion and washing performance, And its alkali resistance and low bubble also gradually cause the attention of people.

It is well known that the refining of silk fabric is carried out in strongly basic medium, and pushing away with abbreviated system Extensively, amount of caustic soda is greatly improved, and this just proposes requirements at the higher level to the alkali resistance of refining agent.Furthermore, conventional refinery agent is generally high Foam type, high foam not only influences to operate but also be difficult rinsing.

The content of the invention：

The technical problems to be solved by the invention are to provide the silk fabric essence that a kind of consumption is few and performance is excellent Refine with low bubble alkali-resistant penetrant.

The technical problems to be solved by the invention are realized using following technical scheme：

A kind of silk fabric refining is made up with low bubble alkali-resistant penetrant of the raw material of following parts by weight：

Poly-aspartic-acid/10-20 parts of poly glycol monomethyl ether, modified 1-5 parts of PLURONICS F87, polyglutamic acid 1-5 Part, 1-5 parts of hydroxyethyl cellulose, 0.5-1 parts of hydroxypropyl PASELLI EASYGEL, 0.5-1 parts of rilanit special, sodium gluconate 0.1-0.5 parts, 0.05-0.2 parts of Tea Polyphenols.

Its preparation method comprises the following steps：

(1) rilanit special and Tea Polyphenols are added into hydroxyethyl cellulose, is sufficiently mixed, then heats to 75-80 DEG C Insulation grinding 10-15min, produces modified hydroxyethylcellulosadsorbing；

(2) modified PLURONICS F87 and the starch phosphorus of hydroxypropyl two are added into poly-aspartic-acid/poly glycol monomethyl ether Acid esters, is transferred to sealing and standing 1-2h in 0-5 DEG C of environment after being sufficiently mixed, then is warming up to 80-85 DEG C of insulation grinding 10-15min, i.e., Obtain powder；

(3) polyglutamic acid, modified hydroxyethylcellulosadsorbing and gluconic acid are added while hot into above-mentioned obtained powder Sodium, continues, in 80-85 DEG C of insulation grinding 10-15min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation method of the poly-aspartic-acid/poly glycol monomethyl ether is：Add under stirring into poly-aspartic-acid Water is warming up to 55-60 DEG C of insulated and stirred 10min, adds poly glycol monomethyl ether up to being completely dissolved, and is continuously heating to backflow State insulated and stirred 2h, then adds N hydroxymethyl acrylamide and double trifluoromethanesulfonimides, flow back insulated and stirred again 30min, and naturally cool in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through ultramicro grinding mechanism Into micro mist.

The poly-aspartic-acid, poly glycol monomethyl ether, N hydroxymethyl acrylamide and double trifluoromethanesulfonimides Mass ratio be 5-10:5-10:0.5-2:0.1-1.

The modified PLURONICS F87 is made by the modified processing of PLURONICS F87, and its preparation method is：Under stirring to Added water in PLURONICS F87 up to being completely dissolved, obtain the aqueous solution of PLURONICS F87；And add under agitation into stearic acid Absolute ethyl alcohol obtains stearic ethanol solution up to being completely dissolved；Added into the aqueous solution of PLURONICS F87 stearic Ethanol solution, is sufficiently mixed after microwave reflow treatment 10min under microwave frequency 2450MHz, power output 700W, stands Continue microwave reflow treatment 5min after 15min, add allyl glycidyl ether and HPMA, after being well mixed Microwave reflow treatment 5min again, gained mixture is volatilized in being ground to solvent at 70-75 DEG C, produces modified PLURONICS F87.

The PLURONICS F87, stearic acid, the mass ratio of allyl glycidyl ether and HPMA are 1-5: 0.5-2:0.1-0.5:0.05-0.2。

The beneficial effects of the invention are as follows：The present invention is assisted with many using poly-aspartic-acid/poly glycol monomethyl ether as major ingredient Kind of auxiliary material is made the low bubble alkali-resistant penetrant of silk fabric refining, the bleeding agent good water solubility, alkali resistance and permeability by force, and Low bubble, easily rinsing, reduce rinsing water amount；The bleeding agent coordinate refinery practice effectively remove on fabric contained natural impurity, The spot being stained with before slurry, the colouring agent added in weaving process, and dyeing and finishing processing, obtains good luster, soft, whiteness Pure, lines is clear, the white product of white silk of good penetrability, or provides the second best in quality semi-products for dyeing, stamp.

Embodiment：

In order that the technical means, the inventive features, the objects and the advantages of the present invention are easy to understand, tie below Specific embodiment is closed, the present invention is expanded on further.

Embodiment 1

(1) 0.5g rilanit specials and 0.05g Tea Polyphenols are added into 3g hydroxyethyl celluloses, is sufficiently mixed, Ran Housheng Temperature produces modified hydroxyethylcellulosadsorbing to 75-80 DEG C of insulation grinding 10min；

(2) 3g is added into 15g poly-aspartic-acids/poly glycol monomethyl ether and is modified PLURONICS F87 and 0.5g hydroxypropyls Base PASELLI EASYGEL, is transferred to sealing and standing 1h in 0-5 DEG C of environment, then be warming up to 80-85 DEG C of insulation grinding after being sufficiently mixed 10min, produces powder；

(3) 3g polyglutamic acids, modified hydroxyethylcellulosadsorbing and 0.1g Portugals are added while hot into above-mentioned obtained powder Grape sodium saccharate, continues, in 80-85 DEG C of insulation grinding 10min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation of poly-aspartic-acid/poly glycol monomethyl ether：Added water under stirring into 10g poly-aspartic-acids until complete Fully dissolved, is warming up to 55-60 DEG C of insulated and stirred 10min, adds 5g poly glycol monomethyl ethers, is continuously heating to reflux state guarantor Temperature stirring 2h, then adds 0.5gN- NMAs and the double trifluoromethanesulfonimides of 0.1g, and the insulation that flows back again is stirred 30min is mixed, and is naturally cooled in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through micronizer Micro mist is made.

The preparation of modified PLURONICS F87：Add water up to being completely dissolved, moored into 5g PLURONICS F87s under stirring Luo Shamu 188 aqueous solution；And add absolute ethyl alcohol until being completely dissolved into 2g stearic acid under agitation, obtain stearic second Alcoholic solution；Stearic ethanol solution is added into the aqueous solution of PLURONICS F87, is sufficiently mixed after microwave frequency Microwave reflow treatment 10min under 2450MHz, power output 700W, stands and continues microwave reflow treatment 5min after 15min, then add Enter 0.2g allyl glycidyl ethers and 0.05g HPMAs, microwave reflow treatment 5min, institute again after being well mixed Mixture is volatilized in being ground to solvent at 70-75 DEG C, produce modified PLURONICS F87.

Embodiment 2

(1) 0.5g rilanit specials and 0.05g Tea Polyphenols are added into 5g hydroxyethyl celluloses, is sufficiently mixed, Ran Housheng Temperature produces modified hydroxyethylcellulosadsorbing to 75-80 DEG C of insulation grinding 15min；

(2) 5g is added into 20g poly-aspartic-acids/poly glycol monomethyl ether and is modified PLURONICS F87 and 1g hydroxypropyls PASELLI EASYGEL, is transferred to sealing and standing 2h in 0-5 DEG C of environment, then be warming up to 80-85 DEG C of insulation grinding after being sufficiently mixed 15min, produces powder；

(3) 5g polyglutamic acids, modified hydroxyethylcellulosadsorbing and 0.3g Portugals are added while hot into above-mentioned obtained powder Grape sodium saccharate, continues, in 80-85 DEG C of insulation grinding 15min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation of poly-aspartic-acid/poly glycol monomethyl ether：Added water under stirring into 10g poly-aspartic-acids until complete Fully dissolved, is warming up to 55-60 DEG C of insulated and stirred 10min, adds 10g poly glycol monomethyl ethers, be continuously heating to reflux state Insulated and stirred 2h, then adds 1g N hydroxymethyl acrylamides and the double trifluoromethanesulfonimides of 0.1g, and the insulation that flows back again is stirred 30min is mixed, and is naturally cooled in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through micronizer Micro mist is made.

The preparation of modified PLURONICS F87：Add water up to being completely dissolved, moored into 5g PLURONICS F87s under stirring Luo Shamu 188 aqueous solution；And add absolute ethyl alcohol until being completely dissolved into 1g stearic acid under agitation, obtain stearic second Alcoholic solution；Stearic ethanol solution is added into the aqueous solution of PLURONICS F87, is sufficiently mixed after microwave frequency Microwave reflow treatment 10min under 2450MHz, power output 700W, stands and continues microwave reflow treatment 5min after 15min, then add Enter 0.1g allyl glycidyl ethers and 0.05g HPMAs, microwave reflow treatment 5min, institute again after being well mixed Mixture is volatilized in being ground to solvent at 70-75 DEG C, produce modified PLURONICS F87.

Reference examples 1

(1) 5g is added into 20g poly-aspartic-acids/poly glycol monomethyl ether and is modified PLURONICS F87 and 1g hydroxypropyls PASELLI EASYGEL, is transferred to sealing and standing 2h in 0-5 DEG C of environment, then be warming up to 80-85 DEG C of insulation grinding after being sufficiently mixed 15min, produces powder；

(2) 5g polyglutamic acids, 5g hydroxyethyl celluloses and 0.3g grapes are added while hot into above-mentioned obtained powder Sodium saccharate, continues, in 80-85 DEG C of insulation grinding 15min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation of poly-aspartic-acid/poly glycol monomethyl ether：Added water under stirring into 10g poly-aspartic-acids until complete Fully dissolved, is warming up to 55-60 DEG C of insulated and stirred 10min, adds 10g poly glycol monomethyl ethers, be continuously heating to reflux state Insulated and stirred 2h, then adds 1g N hydroxymethyl acrylamides and the double trifluoromethanesulfonimides of 0.1g, and the insulation that flows back again is stirred 30min is mixed, and is naturally cooled in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through micronizer Micro mist is made.

The preparation of modified PLURONICS F87：Add water up to being completely dissolved, moored into 5g PLURONICS F87s under stirring Luo Shamu 188 aqueous solution；And add absolute ethyl alcohol until being completely dissolved into 1g stearic acid under agitation, obtain stearic second Alcoholic solution；Stearic ethanol solution is added into the aqueous solution of PLURONICS F87, is sufficiently mixed after microwave frequency Microwave reflow treatment 10min under 2450MHz, power output 700W, stands and continues microwave reflow treatment 5min after 15min, then add Enter 0.1g allyl glycidyl ethers and 0.05g HPMAs, microwave reflow treatment 5min, institute again after being well mixed Mixture is volatilized in being ground to solvent at 70-75 DEG C, produce modified PLURONICS F87.

Reference examples 2

(1) 0.5g rilanit specials and 0.05g Tea Polyphenols are added into 5g hydroxyethyl celluloses, is sufficiently mixed, Ran Housheng Temperature produces modified hydroxyethylcellulosadsorbing to 75-80 DEG C of insulation grinding 15min；

(2) 5g PLURONICS F87s are added into 20g poly-aspartic-acids/poly glycol monomethyl ether and 1g hydroxypropyls two forms sediment Powder phosphate, is transferred to sealing and standing 2h in 0-5 DEG C of environment after being sufficiently mixed, then is warming up to 80-85 DEG C of insulation grinding 15min, i.e., Obtain powder；

(3) 5g polyglutamic acids, modified hydroxyethylcellulosadsorbing and 0.3g Portugals are added while hot into above-mentioned obtained powder Grape sodium saccharate, continues, in 80-85 DEG C of insulation grinding 15min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation of poly-aspartic-acid/poly glycol monomethyl ether：Added water under stirring into 10g poly-aspartic-acids until complete Fully dissolved, is warming up to 55-60 DEG C of insulated and stirred 10min, adds 10g poly glycol monomethyl ethers, be continuously heating to reflux state Insulated and stirred 2h, then adds 1g N hydroxymethyl acrylamides and the double trifluoromethanesulfonimides of 0.1g, and the insulation that flows back again is stirred 30min is mixed, and is naturally cooled in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through micronizer Micro mist is made.

Reference examples 3

(1) 0.5g rilanit specials and 0.05g Tea Polyphenols are added into 5g hydroxyethyl celluloses, is sufficiently mixed, Ran Housheng Temperature produces modified hydroxyethylcellulosadsorbing to 75-80 DEG C of insulation grinding 15min；

(2) 5g is added into 20g poly-aspartic-acids/poly glycol monomethyl ether and is modified PLURONICS F87 and 1g hydroxypropyls PASELLI EASYGEL, is transferred to sealing and standing 2h in 0-5 DEG C of environment, then be warming up to 80-85 DEG C of insulation grinding after being sufficiently mixed 15min, produces powder；

(3) 5g polyglutamic acids, modified hydroxyethylcellulosadsorbing and 0.3g Portugals are added while hot into above-mentioned obtained powder Grape sodium saccharate, continues, in 80-85 DEG C of insulation grinding 15min, finally to naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

The preparation of poly-aspartic-acid/poly glycol monomethyl ether：Added water under stirring into 10g poly-aspartic-acids until complete Fully dissolved, is warming up to 55-60 DEG C of insulated and stirred 10min, adds 10g poly glycol monomethyl ethers, be continuously heating to reflux state Insulated and stirred 2h, and naturally cool in room temperature, gained mixed liquor feeding freeze drier, gained solid is dried through ultramicro grinding Micro mist is made in machine.

The preparation of modified PLURONICS F87：Add water up to being completely dissolved, moored into 5g PLURONICS F87s under stirring Luo Shamu 188 aqueous solution；And add absolute ethyl alcohol until being completely dissolved into 1g stearic acid under agitation, obtain stearic second Alcoholic solution；Stearic ethanol solution is added into the aqueous solution of PLURONICS F87, is sufficiently mixed after microwave frequency Microwave reflow treatment 10min under 2450MHz, power output 700W, stands and continues microwave reflow treatment 5min after 15min, then add Enter 0.1g allyl glycidyl ethers and 0.05g HPMAs, microwave reflow treatment 5min, institute again after being well mixed Mixture is volatilized in being ground to solvent at 70-75 DEG C, produce modified PLURONICS F87.

Embodiment 3

Permeability is determined：10g embodiments 1, embodiment 2, reference examples 1, the made bleeding agent of reference examples 2 are dissolved in 1L water respectively In, take 10 pieces of diameter 1cm × 1cm silk fabric to keep flat in solution, and manual time-keeping is opened, when silk fabric is complete by solution Stopwatch is pressed when soaking entirely, read access time is averaged.

Alkali resistance is determined：10g embodiments 1, embodiment 2, reference examples 1, the made bleeding agent of reference examples 2 are dissolved in 1L water respectively In, sodium hydroxide is slowly added under stirring, stops being hydrogenated with sodium oxide molybdena if there is turbid phenomenon in water, and record added hydroxide The quality of sodium.

Foaming characteristic is determined：10g embodiments 1, embodiment 2, reference examples 1, the made bleeding agent of reference examples 2 are dissolved in 1L water respectively In, take 50mL solution to add in 100mL beakers, 5min is stirred under 600rpm rotating speeds, determine foam height.

The performance of the made bleeding agent of table 3

The general principle and principal character and advantages of the present invention of the present invention has been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the simply explanation described in above-described embodiment and specification is originally The principle of invention, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (6)

1. a kind of silk fabric refining is with low bubble alkali-resistant penetrant, it is characterised in that be made up of the raw material of following parts by weight：

Poly-aspartic-acid/10-20 parts of poly glycol monomethyl ether, modified 1-5 parts of PLURONICS F87,1-5 parts of polyglutamic acid, 1-5 parts of hydroxyethyl cellulose, 0.5-1 parts of hydroxypropyl PASELLI EASYGEL, 0.5-1 parts of rilanit special, sodium gluconate 0.1- 0.5 part, 0.05-0.2 parts of Tea Polyphenols.

2. silk fabric refining according to claim 1 is with low bubble alkali-resistant penetrant, it is characterised in that：Its preparation method bag Include following steps：

(1) rilanit special and Tea Polyphenols are added into hydroxyethyl cellulose, is sufficiently mixed, then heats to 75-80 DEG C of insulation 10-15min is ground, modified hydroxyethylcellulosadsorbing is produced；

(2) modified PLURONICS F87 and the starch phosphate of hydroxypropyl two are added into poly-aspartic-acid/poly glycol monomethyl ether Ester, is transferred to sealing and standing 1-2h in 0-5 DEG C of environment after being sufficiently mixed, then is warming up to 80-85 DEG C of insulation grinding 10-15min, produces Powder；

(3) polyglutamic acid, modified hydroxyethylcellulosadsorbing and sodium gluconate are added while hot into above-mentioned obtained powder, after Continue in 80-85 DEG C of insulation grinding 10-15min, finally naturally cool to room temperature, produce low bubble alkali-resistant penetrant.

3. silk fabric refining according to claim 1 or 2 is with low bubble alkali-resistant penetrant, it is characterised in that：The poly- day The preparation method of L-aminobutanedioic acid/poly glycol monomethyl ether is：Added water under stirring into poly-aspartic-acid until being completely dissolved, liter Temperature adds poly glycol monomethyl ether, is continuously heating to reflux state insulated and stirred 2h, so to 55-60 DEG C of insulated and stirred 10min N hydroxymethyl acrylamide and double trifluoromethanesulfonimides are added afterwards, and flow back insulated and stirred 30min again, and naturally cools to In room temperature, gained mixed liquor feeding freeze drier, dry gained solid and micro mist is made through micronizer.

4. silk fabric refining according to claim 3 is with low bubble alkali-resistant penetrant, it is characterised in that：The poly- lucid asparagus Propylhomoserin, poly glycol monomethyl ether, the mass ratio of N hydroxymethyl acrylamide and double trifluoromethanesulfonimides are 5-10:5-10: 0.5-2:0.1-1。

5. silk fabric refining according to claim 1 or 2 is with low bubble alkali-resistant penetrant, it is characterised in that：The modification PLURONICS F87 is made by the modified processing of PLURONICS F87, and its preparation method is：Added water under stirring into PLURONICS F87 Until being completely dissolved, the aqueous solution of PLURONICS F87 is obtained；And add absolute ethyl alcohol until completely molten into stearic acid under agitation Solution, obtains stearic ethanol solution；Stearic ethanol solution is added into the aqueous solution of PLURONICS F87, is sufficiently mixed After microwave reflow treatment 10min under microwave frequency 2450MHz, power output 700W, stand and continue after 15min at microwave backflow 5min is managed, allyl glycidyl ether and HPMA is added, microwave reflow treatment 5min again after being well mixed, Gained mixture is volatilized in being ground to solvent at 70-75 DEG C, produces modified PLURONICS F87.

6. silk fabric refining according to claim 5 is with low bubble alkali-resistant penetrant, it is characterised in that：The poloxamer 188th, the mass ratio of stearic acid, allyl glycidyl ether and HPMA is 1-5:0.5-2:0.1-0.5:0.05- 0.2。