CN105239203A - Easy-to-dye modified polylactic acid fiber with good hygroscopicity - Google Patents
Easy-to-dye modified polylactic acid fiber with good hygroscopicity Download PDFInfo
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- CN105239203A CN105239203A CN201510730540.XA CN201510730540A CN105239203A CN 105239203 A CN105239203 A CN 105239203A CN 201510730540 A CN201510730540 A CN 201510730540A CN 105239203 A CN105239203 A CN 105239203A
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- polylactic acid
- modified polylactic
- acid fiber
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Abstract
The invention discloses a novel easy-dyeing modified polylactic acid fiber with good hygroscopicity. The modified polylactic acid fiber is prepared by the following method: adding a variety of raw materials into a high speed mixing machine, and conducting high speed dispersion to obtain a modified polylactic acid mixture; conducting melt blending and extrusion on the uniformly mixed modified polylactic acid mixture by a double screw extruder to prepare modified polylactic acid masterbatch, and conducting vacuum drying; adding the modified polylactic acid functional masterbatch slice and vacuum drying ordinary polylactic acid slice into a high-speed mixer, and evenly mixing; spinning the mixture in a melt spinning machine by a circular spinneret orifice to obtain modified polylactic acid fiber; then conducting microorganism modification and strictly controlling the fermentation parameters; wetting the prepared polylactic acid fiber by spraying water, evenly spraying a composite bacteria liquid, fermenting under constant temperature of 38.5 DEG C for 72-79 h.
Description
Technical field
The present invention relates to a kind of good hygroscopicity easily upper modified polylactic acid fiber contaminated, belong to textile material field.
Background technology
The raw materials for production lactic acid of acid fiber by polylactic (PLA) is obtained from cornstarch, so also this fiber is called zein fiber, can garden beet or cereal etc. make through glucose fermentation, to reduce the cost of preparation lactic acid polymerizes body.The PLA of high molecular can be obtained by the chemical polymerization of lactic acid Cyclodimerization thing or the direct polymerization of lactic acid.Be the goods that raw material obtains with PLA, there is good biocompatibility and Bioabsorbable, and biocidal property, anti-flammability, and in biodegradable thermoplastic polymer material, PLA has best heat resistance.
Along with the exploitation mechanism of acid fiber by polylactic and being on the increase of enterprise both at home and abroad, the application of acid fiber by polylactic in textile industry will be more and more extensive.Take PLA as the goods that raw material obtains, there is good biocompatibility and Bioabsorbable, and the good performance such as biological degradability, water imbibition, biocidal property, anti-flammability, but easily shrink under wet, thermal environment, cohere, affect processing and the application of acid fiber by polylactic.
Prior art has disclosed the method for multiple modified polylactic acid fiber, as Chinese patent application 201210096514.2 discloses a kind of preparation method of hydrolytic-resistant modified polylactic acid fiber, comprise: by weight by PLA 70 ~ 98.9 parts, low molecular weight polyester 1 ~ 30 part, multi-functional polycarbodiimide 0.1 ~ 5.0 part mixing, carry out melt blending granulation after mixing and obtain master batch, obtained master batch is obtained undrawn yarn by melt spinning, winding after vacuumize, finally carry out drawing-off, obtain modified acid fiber by polylactic.The modified polylactic acid fiber of this invention has excellent feel and flexibility, and can realize low temperature dyeing, and the dye-uptake of high-temp dyeing is higher, because resistant to hydrolysis performance is good, and the problem that when can avoid high-temperature process, mechanical property is deteriorated.But due to adding of cross-linking type polycarbodiimide, a small amount of irritative gas can be produced in spinning engineering certain injury is caused to human body.
The PLA of different optical structure mixes by somebody according to a certain percentage, finds, under certain component and ratio, to have an unexpected effect.And the research to blended recipe ingredient, be mainly the cellulose to adding, other components, and consider between compatibility between component.Also have patent document to find to adopt special-shaped spinneret orifice can improve the Moisture absorption & moisture conductivity of modification PLA fiber at melt spinning, especially pentagon profile spinneret spinning pentagon abnormity PLA fiber effects is especially good.But these technology all do not solve the acid fiber by polylactic not easily upper shortcoming contaminated, and the spinnability of special-shaped PLA fiber can be affected.
The present invention aims to provide a kind of good hygroscopicity easily upper modified polylactic acid fiber contaminated.
Summary of the invention
The present invention is directed to shortcoming of the prior art, the present invention aims to provide a kind of good hygroscopicity easily upper modified polylactic acid fiber contaminated, and its excellent performance, especially has good hygroscopicity, the feature of Yi Shangran.
Object of the present invention can be achieved through the following technical solutions:
Good hygroscopicity is the upper modified polylactic acid fiber contaminated easily, and it prepares by the following method:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 68-69 part;
PLLA PLA 8-9 part;
Hydroxypropul starch 3-3.5 part;
Cellulose diacetate 2-3 part;
Mica powder 0.2-0.3 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 210-215 DEG C, and winding speed is 1700-1800m/min; Drawing temperature is 80-82 DEG C, and drafting multiple is 2.8-3.2 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentation 72-79 hour;
(5) dry: 80-90 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
To the bacterial strain ratio of fermentation, and the control of fermentation time and temperature is most important, control different bacterial strains, zymotechnique, result can be very different, the present inventor has found the technique of several fermentation modified polylactic acid fiber excellent especially in a large amount of experiments, see other series applications of the present invention.
Usefulness of the present invention is:
(1) the modified polylactic acid fiber good hygroscopicity that obtains of the present invention, Yi Shangran.
(2) the modified polylactic acid fiber raw material that obtains of the present invention is simple, and make full use of biofermentation technique, environment protection health noresidue, be a kind of completely newly, creative technique.
Detailed description of the invention
embodiment 1:
Good hygroscopicity is the upper modified polylactic acid fiber contaminated easily, and it prepares by the following method:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 68 parts;
PLLA PLA 9 parts;
Hydroxypropul starch 3 parts;
Cellulose diacetate 3 parts;
Mica powder 0.2 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 215 DEG C, and winding speed is 1700m/min; Drawing temperature is 82 DEG C, and drafting multiple is 2.8 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentations 79 hours;
(5) dry: 80 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
embodiment 2:
Good hygroscopicity is the upper modified polylactic acid fiber contaminated easily, and it prepares by the following method:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 69 parts;
PLLA PLA 8 parts;
Hydroxypropul starch 3.5 parts;
Cellulose diacetate 2 parts;
Mica powder 0.3 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 210 DEG C, and winding speed is 1800m/min; Drawing temperature is 80 DEG C, and drafting multiple is 3.2 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentations 72 hours;
(5) dry: 90 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
embodiment 3:
A kind of novel high-strength easily on contaminate modified polylactic acid fiber, it prepares by the following method:
Good hygroscopicity is the upper modified polylactic acid fiber contaminated easily, and it prepares by the following method:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 68 parts;
PLLA PLA 8 parts;
Hydroxypropul starch 3.3 parts;
Cellulose diacetate 3 parts;
Mica powder 0.3 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 214 DEG C, and winding speed is 1729m/min; Drawing temperature is 81 DEG C, and drafting multiple is 2.9 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentations 78 hours;
(5) dry: 81 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
embodiment 4:
Good hygroscopicity is the upper modified polylactic acid fiber contaminated easily, and it prepares by the following method:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 69 parts;
PLLA PLA 9 parts;
Hydroxypropul starch 3.4 parts;
Cellulose diacetate 2 parts;
Mica powder 0.2 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 211 DEG C, and winding speed is 1756m/min; Drawing temperature is 80 DEG C, and drafting multiple is 3.1 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentations 73 hours;
(5) dry: 89 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
embodiment 5: effect is tested and assessed
The modified polylactic acid fiber prepared embodiment 1-4 is soft, and carry out the test of performance further, result is as shown in table 1:
Table 1
Fracture strength(cN/dTex) | Vicat softening point (degree Celsius) | Regain W(%) | Dye-uptake (%) | Washing fastness (AATCC test) | |
Embodiment 1 | 3.2 | 129 | 6.6 | 82 | 5 |
Embodiment 2 | 3.7 | 141 | 6.9 | 83 | 5 |
Embodiment 3 | 3.4 | 136 | 5.9 | 81 | 4 |
Embodiment 4 | 3.9 | 130 | 7.1 | 84 | 4 |
As can be seen here, the modified polylactic acid fiber good hygroscopicity that the present invention obtains, mechanical strength is large, Yi Shangran, and after dyeing, resistance to look jail index is outstanding, and resistance to elevated temperatures is also greatly improved.
The above; be only the present invention's preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.
Claims (3)
1. good hygroscopicity easily goes up a preparation method for the modified polylactic acid fiber of dye, and its step is as follows:
(1) press row parts by weight and be equipped with raw material, then adding in high-speed mixer is uniformly dispersed obtains polydactyl acid mixed material:
PDLLA PLA 68-69 part;
PLLA PLA 8-9 part;
Hydroxypropul starch 3-3.5 part;
Cellulose diacetate 2-3 part;
Mica powder 0.2-0.3 part;
(2) by mixed uniformly polydactyl acid mixed material by double screw extruder melt blending, extrude obtained polydactyl acid master batch, and vacuumize;
(3) 20 parts and the common polylactic acid slice of vacuumize 80 parts of being cut into slices by polydactyl acid functional agglomerate is put in high-speed mixer and is mixed, and mixture obtains modified polylactic acid fiber through circular spinneret orifice spinning on melt spinning machine;
Described spinning temperature is 210-215 DEG C, and winding speed is 1700-1800m/min; Drawing temperature is 80-82 DEG C, and drafting multiple is 2.8-3.2 times;
(4) microorganism modification:
By lactobacillus lactis, bacillus subtilis, be that 1:0.2:0.3 is mixed with composite bacteria agent capable by Lactococcus lactis according to number ratio;
After wetting for obtained modified polylactic acid fiber water spray, evenly spray composite bacteria liquid, constant temperature 38.5 DEG C of bottom fermentation 72-79 hour;
(5) dry: 80-90 DEG C drying fibrous, deactivation and dry object can be reached simultaneously.
2. good hygroscopicity according to claim 1 easily goes up the preparation method of the acid fiber by polylactic of dye, it is characterized in that:
Described step (3) described spinning temperature is 210-215 DEG C, and winding speed is 1700-1800m/min; Drawing temperature is 80-82 DEG C, and drafting multiple is 2.8-3.2 times.
3. the modified polylactic acid fiber that the good hygroscopicity that preparation method described in claim 1-2 prepares easily above contaminates.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US11827772B2 (en) | 2019-12-10 | 2023-11-28 | Ticona Llc | Cellulose ester composition containing bloom resistant or bio-based plasticizer |
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CN104233574A (en) * | 2014-09-11 | 2014-12-24 | 湖州品创科技咨询有限公司 | Blended fabric for towel |
CN104248274A (en) * | 2014-09-11 | 2014-12-31 | 长兴金发纺织有限公司 | Blended fabric for bed sheets |
CN104818543A (en) * | 2015-04-16 | 2015-08-05 | 长兴永鑫纺织印染有限公司 | Modified polylactic acid fiber excellent in performance |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104233574A (en) * | 2014-09-11 | 2014-12-24 | 湖州品创科技咨询有限公司 | Blended fabric for towel |
CN104248274A (en) * | 2014-09-11 | 2014-12-31 | 长兴金发纺织有限公司 | Blended fabric for bed sheets |
CN104818543A (en) * | 2015-04-16 | 2015-08-05 | 长兴永鑫纺织印染有限公司 | Modified polylactic acid fiber excellent in performance |
Non-Patent Citations (1)
Title |
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苏柳柳等: "聚乳酸纤维的脂肪酶表面改性处理", 《合成纤维工业》 * |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US11827772B2 (en) | 2019-12-10 | 2023-11-28 | Ticona Llc | Cellulose ester composition containing bloom resistant or bio-based plasticizer |
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