CN104018365B - A kind of Reactive Printing Process - Google Patents

Abstract

The invention discloses a kind of Reactive Printing Process, its step is as follows：1) original pastes standby：The water of measured amounts, is placed in container；The sodium alginate for weighing up in advance is sprinkled in hot water several times, Bian Sabian stirrings, till continuing 20 30min of stirring, the pasty state that is translucent after having spread；2) prepared by mill base：By glycerine and triethylene glycol, mix and convert is uniform in proportion, adds water, reservehao S and dyestuff, stirs, without precipitation；Add step 1) the former paste of the sodium alginate for preparing, it is stirred at 80 DEG C so as to become pasty state；Alkaline agent is added, is stirred standby；3) stamp：Silk broadcloth is spread on machine of magnetic rod printing machine carries out stamp and then drying, gas steaming, washing；Drying, colour examining at a temperature of 60 DEG C.The present invention with glycerine and triethylene glycol as raw material, for replacing the use of industrial urea.It can reduce dyeing and finishing printing with reactive dye for the impact of environment.Especially for the impact of water quality.

Description

A kind of Reactive Printing Process

Technical field

The present invention relates to a kind of printing technology, specially a kind of Reactive Printing Process, belong to printing technology field.

Background technology

In the present printing with reactive dye of China, selected hygroscopic agent is urea.The wettability power of urea is ideal, Have the effect of hydrotropy again concurrently.And the less expensive of urea.But, urea is entered in water source, and natural decomposition is into CO2 and contains Nitrogen compound, the former can accelerate the cavity of ozone layer, cause the greenhouse effects of the earth；The latter can accelerate the growth of algae substances, Finally cause Water Eutrophication phenomenon.

The content of the invention

The invention aims to a kind of Reactive Printing Process is provided, to solve the problems referred to above of prior art.

The purpose of the present invention is achieved through the following technical solutions.

A kind of Reactive Printing Process, its step are as follows：

1) original pastes standby：The water of measured amounts, is placed in container, is heated to 75 DEG C -85 DEG C；By the marine alga for weighing up in advance Sour sodium is sprinkled in hot water several times, Bian Sabian stirrings, till continuing stirring 20-30min, the pasty state that is translucent after having spread；It is made In the former paste for obtaining, the mass percent of sodium alginate is 7%-8%；

2) prepared by mill base：Glycerine and triethylene glycol are pressed into 4：6-5:5 mass are more uniform than mix and convert, add 19.25g water, 0.5g Reservehao S and 1.5 dyestuffs, stir, without precipitation；Add step 1) the former paste 25g of the sodium alginate for preparing, enters at 80 DEG C Row stirring so as to become pasty state；1.25g alkaline agents are added, is stirred standby；The quality of the glycerine and triethylene glycol accounts for total amount 4%-6%；

3) stamp：Silk broadcloth is spread on machine of magnetic rod printing machine carries out stamp and then drying；The gas at a temperature of 102～104 DEG C Steam 8～10min；Then it is washed to mill base all to remove；Drying, colour examining at a temperature of 60 DEG C.

Described reservehao S is m-nitrobenzene sulfonic acid.

Described dyestuff in reactive navy blue K-BF, reactive blue K-BD, active yellow M-3R and reactive brilliant red k-2g one Kind.

Described alkaline agent is sodium acid carbonate.

The present invention with glycerine and triethylene glycol as raw material, for replacing the use of industrial urea.It can reduce dyeing and finishing work Property dye printing is for the impact of environment.Especially for the impact of water quality.

By the mill base that above-mentioned technological process and control condition are made, dye effect is good thereon, can particularly reduce stamp row Industry can also be developed into industrial production direction for the impact of environment if carrying out appropriate allotment and dilution in addition again.

Specific embodiment

The technical characterstic of the present invention is expanded on further with reference to specific embodiment.

First, the preparation of dyestuff

1st, original pastes standby：Sodium alginate 8g adds the water of 92ml；Specific operation process：92ml water is measured in 250ml beakers, It is heated to 80 DEG C.The sodium alginate for weighing up in advance is sprinkled in hot water several times, Bian Sabian stirrings continue stirring after having spread Till 30min, the pasty state that is translucent.Can be standby.

2nd, prepared by mill base：With glycerine, triethylene glycol, mix and convert is uniform in proportion, adds 19.25g water, 0.5g reservehao Ss, 1.5g dyestuffs, stir, and without precipitation, add the former paste of 25g sodium alginates.It is stirred at 80 DEG C again so as to become paste Shape.1.25g sodium acid carbonates are added, stamp by stirring.

3rd, stamp：Spread on machine of magnetic rod printing machine silk broadcloth carry out stamp then drying, gas steam (102～104 DEG C, 8～ 10min), washing (at least mill base is all removed), drying (60 DEG C), colour examining.

2nd, test data：K/S values

1st, technical recipe is shown in Table 1

Table 1：Silk broadcloth reactive printing mill base prescription：

Composition	Operational ton (g)	Percentage
			8% sodium alginate	25
Water	19.25
			Glycerine and triethylene glycol intermixture	2.5	5%
Dyestuff	1.5
			Sodium acid carbonate	1.25

Reservehao S

0.5

2nd, K/S values, △ E, Lab

PRINTED FABRIC cloth specimen K/S values are determined with Ai Seli colour photometers.Using D65 light sources, 10 ° of visual fields, the test of individual layer cloth specimen. K/S values are bigger, and the color for representing finished product is deeper, and the function of urea is exactly the effect by moisture absorption, promote dyestuff to fibre migration, Case depth, that is, K/s values are improved from this.

3rd, impact of the urea from different substituting agents to silk broadcloth reactive dye monochrome printing performance

With full urea and dicyandiamide, triethylene glycol, tetraethylene glycol, glycerine, GC, caprolactam this 6 kinds of substituting agents use work respectively Property this 2 kinds of reactive dye of bright red K-2G, reactive navy blue K-BF carry out stamp, measure after stamp modulating mill base to silk broadcloth K/S values, △ E values, Lab values are compared with full urea stamp product, as a result as shown in table 1,2,3:

Impact (5% consumption) of the 1 different substituting agents of table to silk broadcloth reactive dye monochrome stamp product K/S values

As shown in Table 1, the K/S values of glycerine and triethylene glycol PRINTED FABRIC are more closest compared with urea PRINTED FABRIC；But It is not reaching to the effect of urea.And the triethylene glycol and glycerine mix reagent of the present invention, effect is more than any one single replacement Thing；The effect of closest urea.Therefore, glycerine and triethylene glycol intermixture can be selected as the replacement for cutting down or substituting urea Agent.

4th, the impact of glycerine and triethylene glycol mixed proportion to silk broadcloth reactive dye monochrome printing performance is (according to above-mentioned color The hygroscopic agent of slurry prescription 5%)

Glycerine is combined with triethylene glycol and replaces urea completely, and wherein glycerine and triethylene glycol clicks ratio：1%:9%, 2%:8%, 3%:7%, 4%:6%, 5%:5%, 6%:4%, 7%:3%, 8%:2%, 9%:1%, it is right after modulation mill base Silk broadcloth carries out printing with reactive dye, the K/S values measured after stamp,

Table 2：Impact of the glycerine with triethylene glycol mixed proportion to silk broadcloth reactive dye monochrome stamp product K/S values

Optimum quality ratio from 2 test data of table, glycerine and triethylene glycol is：4：6-5:5.

Claims (4)

1. a kind of Reactive Printing Process, it is characterised in that：Its step is as follows：

1) original pastes standby：The water of measured amounts, is placed in container, is heated to 75 DEG C -85 DEG C；By the sodium alginate for weighing up in advance It is sprinkled in hot water several times, Bian Sabian stirrings, till continuing stirring 20-30min, the pasty state that is translucent after having spread；Obtained In former paste, the mass percent of sodium alginate is 7%-8%；

2) prepared by mill base：Glycerine and triethylene glycol are pressed into 4：6-5:5 mass are more uniform than mix and convert, add 19.25g water, 0.5g resist printing Salt S and 1.5g dyestuff, stirs, without precipitation；Add step 1) the former paste 25g of the sodium alginate for preparing, carry out at 80 DEG C Stirring so as to become pasty state；1.25g alkaline agents are added, is stirred standby；The quality of the glycerine and triethylene glycol accounts for total amount 4%-6%；

3) stamp：Silk broadcloth is spread on machine of magnetic rod printing machine carries out stamp and then drying；The decatize 8 at a temperature of 102～104 DEG C ～10min；Then it is washed to mill base all to remove；Drying, colour examining at a temperature of 60 DEG C.

2. printing technology according to claim 1, it is characterised in that：Described reservehao S is m-nitrobenzene sodium sulfonate.

3. printing technology according to claim 1, it is characterised in that：Described dyestuff is selected from reactive navy blue K-BF, activity One kind in blue K-BD, active yellow M-3R and reactive brilliant red k-2g.

4. printing technology according to claim 1, it is characterised in that：Described alkaline agent is sodium acid carbonate.