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Micronano Imon active printing and dyeing paste and its preparation method

A micro-nano, active technology, applied in dyeing, textiles and papermaking, etc., can solve the problems of high cost, complex production process, poor performance of paste products, etc., and achieve strong adsorption capacity, good suspension and dispersibility Effect

Inactive Publication Date: 2016-09-14
罗建广 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the production process of these mineral pastes is complicated, the cost is still relatively high, and the performance of paste products is not good

Method used

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  • Micronano Imon active printing and dyeing paste and its preparation method
  • Micronano Imon active printing and dyeing paste and its preparation method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] (1) Pulverize 100kg I-Monite mixed layer clay raw ore into 200 orders;

[0021] (2) Soak the pulverized Illuminate mixed layer clay and water (250kg) at a weight ratio of 1:2.5 for 24 hours, then mechanically pound the slurry for 6 hours (1000r / min) to obtain a uniform liquid of the Illuminate mixed layer clay;

[0022] (3) The homogeneous liquid of the mixed layer clay of Illuminate was left to stand for 24 hours, and then the suspension layer was separated from the sedimentation layer to obtain the clay suspension of the mixed layer of Illuminate;

[0023] (4) Spray-drying the illuminator mixed layer clay suspension obtains 70kg of micronano illuminator mixed layer clay powder;

[0024] (5) Weigh 65.0kg of micro-nano Illuminate mixed-layer clay powder and 4.9kg of sodium alginate by weight, and mix them uniformly by mechanical stirring for 20min and 30 rpm to obtain the micro-nano Illuminant active printing and dyeing paste powder (dry process product).

Embodiment 2

[0026] (1) Pulverize 100kg I-Mongolian mixed layer clay raw ore into 150 orders;

[0027] (2) Soak the pulverized Illuminate mixed-layer clay and water (300kg) in a weight ratio of 1:3 for 24 hours, then mechanically mash for 8 hours (900r / min) to obtain a homogeneous liquid of the Illuminate-aluminum mixed layer clay;

[0028] (3) The homogeneous liquid of the mixed layer clay of Illuminate was left to stand for 24 hours, and then the suspension layer was separated from the sedimentation layer to obtain the clay suspension of the mixed layer of Illuminate;

[0029] (4) spray-drying the illuminator mixed-layer clay suspension to obtain micronano-iron mixed-layer clay powder 50kg;

[0030] (5) Take by weight 46.0kg of micro-nano Illuminate mixed-layer clay powder and 4.0kg of sodium alginate, mechanically stir for 25min, 25 rpm and mix evenly to obtain micronano-illuminant active printing and dyeing paste powder (dry process product).

Embodiment 3

[0032] (1) Pulverize 100kg I-Monite mixed-layer clay raw ore into 100 orders;

[0033] (2) Soak the pulverized Illuminate mixed layer clay and water (250kg) at a weight ratio of 1:2.5 for 24 hours, then mechanically pound the slurry for 6 hours (1000r / min) to obtain a uniform liquid of the Illuminate mixed layer clay;

[0034] (3) The homogeneous liquid of the mixed layer clay of Illuminate was left to stand for 24 hours, and then the suspension layer was separated from the sedimentation layer to obtain the clay suspension of the mixed layer of Illuminate;

[0035] (4) concentrating the illuminator mixed-layer clay suspension to a solid content of 25% to obtain the micro-nano illuminator mixed-layer clay suspension, and configuring 55.0 kg of a sodium alginate homogeneous solution with a sodium alginate content of 1.5%;

[0036] (5) Take by weight 36.8kg of micro-nano Illuminate mixed-layer clay suspension, 55.0kg of sodium alginate homogeneous solution, mechanically stir for ...

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Abstract

The invention discloses a micro-nanometer illuminator active printing and dyeing paste and a preparation method thereof, which are made of micro-nano illuminator mixed-layer clay and sodium alginate. Compared with the existing mineral paste, the obtained active printing and dyeing paste has outstanding advantages: simpler production process, lower production cost and no dust emission, simple paste making process, fast paste formation at room temperature, good water holding performance, and long shelf life of paste Long, no need to change the original printing process, no need to add mechanical equipment when used in textile industrial printing and dyeing, the printing and dyeing process is smooth, the printed and dyed fabric has the characteristics of easy cleaning, high color yield, clear pattern, etc., and can achieve the purpose of printing and dyeing products with high quality and low cost .

Description

technical field [0001] The invention belongs to the technical field of clay mineral printing paste, and in particular relates to a micronano-immon active printing and dyeing paste and a preparation method thereof. Background technique [0002] Fabric printing requires a large amount of reactive printing and dyeing paste, among which the main component of cotton printing reactive printing and dyeing paste is sodium alginate. Sodium alginate is very expensive, and its market price has been rising steadily in recent years, which has brought about an increase in printing and dyeing costs. There are two reasons: first, due to the development of the offshore oil industry in recent years, a large amount of sodium alginate resources have been occupied, and the production scope and raw material volume have been relatively reduced; second, because sodium alginate is also a raw material for the food industry, its use has continued to expand And the dosage is large. In order to reduce...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D06P1/673D06P1/48D06P1/38
Inventor 罗建广陈粟列胡天文
Owner 罗建广