再生涤纶DTY的可加工性研究
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摘要
根据涤纶织物前处理和染整过程中要经受干热、湿热处理以及酸、碱、氧化剂、还原剂等化学试剂处理,选取合适的处理温度、时间及化学试剂浓度等对物理法再生涤纶DTY、化学法再生涤纶DTY与原生涤纶DTY进行处理,并对处理前后涤纶DTY的力学性能及结晶度进行比较。结果表明:处理后的再生涤纶DTY与原生涤纶DTY的力学性能变化趋势相同,且在同等处理条件下纤维断裂强度始终是原生涤纶DTY大于化学法再生涤纶DTY大于物理法再生涤纶DTY,断裂伸长率始终是物理法再生涤纶DTY大于原生涤纶DTY大于化学法再生涤纶DTY;再生涤纶DTY的干热处理温度应控制在160℃以内,湿热处理对其力学性能影响较小;高温浓酸处理易使再生涤纶DTY的断裂强度下降、断裂伸长率增加,高温浓碱处理易使其力学性能急剧下降;经氧化剂、还原剂处理之后,再生涤纶DTY的断裂强度与断裂伸长率均呈现下降趋势,但变化不大;经200℃、30min的干热处理或100℃、30 min的湿热处理后,3种涤纶DTY的结晶度趋于一致,酸、碱和氧化剂处理对纤维结晶度影响不大,而经5 g/L的还原剂处理后,纤维结晶度急剧下降。
Polyester fabric is supposed to undergo to the dry heat, wet heat, acid, alkali, oxidant and reducing agent treatments that in the process of pretreatment and dyeing and finishing. The appropriate treatment temperature and time and chemical agent concentration were decided to treat the physically and chemically recycled polyester DTY and virgin polyester DTY. And the mechanical properties and crystallinity of the polyester DTY were compared before and after treatment. The results showed that the mechanical properties of the recycled polyester DTY had the same variation trend as those of the virgin polyester DTY, and under the same treatment conditions, the breaking strength was always in the order of virgin polyester DTY, chemically recycled polyester DTY and physically recycled polyester DTY and the elongation at break always in the order of physically recycled polyester DTY, virgin polyester DTY, chemically recycled DTY from high to low; the dry heat treatment temperature of recycled polyester DTY should be controlled below 160 ℃, and the wet heat treatment had a little effect on the mechanical properties; high temperature concentrated acid treatment can easily reduce the breaking strength of recycled polyester DTY and raise the elongation at break while high temperature concentrated alkali treatment can sharply decrease the mechanical properties; the breaking strength and elongation at break of recycled polyester DTY showed a weak downward trend after treatment with oxidant and reducing agent; the crystallinity of the three kinds of polyester DTY tended to be the same after dry heat treatment at 200 ℃ for 30 min or wet heat treatment at 100 ℃ for 30 min; and acid, alkali and oxidant treatments had no significant effect on the crystallinity of polyester DTY, but the crystallinity decreased sharply after 5 g/L reducing agent treatment.
Polyester fabric is supposed to undergo to the dry heat, wet heat, acid, alkali, oxidant and reducing agent treatments that in the process of pretreatment and dyeing and finishing. The appropriate treatment temperature and time and chemical agent concentration were decided to treat the physically and chemically recycled polyester DTY and virgin polyester DTY. And the mechanical properties and crystallinity of the polyester DTY were compared before and after treatment. The results showed that the mechanical properties of the recycled polyester DTY had the same variation trend as those of the virgin polyester DTY, and under the same treatment conditions, the breaking strength was always in the order of virgin polyester DTY, chemically recycled polyester DTY and physically recycled polyester DTY and the elongation at break always in the order of physically recycled polyester DTY, virgin polyester DTY, chemically recycled DTY from high to low; the dry heat treatment temperature of recycled polyester DTY should be controlled below 160 ℃, and the wet heat treatment had a little effect on the mechanical properties; high temperature concentrated acid treatment can easily reduce the breaking strength of recycled polyester DTY and raise the elongation at break while high temperature concentrated alkali treatment can sharply decrease the mechanical properties; the breaking strength and elongation at break of recycled polyester DTY showed a weak downward trend after treatment with oxidant and reducing agent; the crystallinity of the three kinds of polyester DTY tended to be the same after dry heat treatment at 200 ℃ for 30 min or wet heat treatment at 100 ℃ for 30 min; and acid, alkali and oxidant treatments had no significant effect on the crystallinity of polyester DTY, but the crystallinity decreased sharply after 5 g/L reducing agent treatment.
引文
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[2] 付昌飞, 陆秀琴, 申世红. 物理法再生涤纶鉴别方法初探[J]. 合成纤维, 2016,45(7):38-44.
[3] Abbasi M, Mojtahedi M R M, Khosroshahi A. Effect of spinning speed on the structure and physical properties of filament yarns produced from used PET bottles[J]. J Appl Polym Sci, 2007,103(6): 3972-3975.
[4] 谭亦武. 废弃聚酯化学回收再生利用的方法[J]. 合成纤维, 2011,40(4):1-7.
[5] Sinha V, Patel M R, Patel J V. PET waste management by chemical recycling: A review[J]. J Polym Environ, 2010,18(1):8-25.
[6] 付昌飞, 李红杰, 徐逸群. 化学法再生涤纶鉴别方法初探[J]. 合成纤维, 2016,45(8):41-45.
[7] 周发明, 杨中开, 唐世君, 等. 再生聚酯及其纤维的结构性能研究[J]. 合成纤维工业, 2014,37(1):13-16.
[8] 郭亚, 段建国, 郭肖青,等. 瓶片与切片级涤纶FDY的结构与性能对比[J]. 合成纤维工业, 2017,40(2):70-73.
[9] 靳晓晴, 杨丽月, 杨庆斌,等. 热处理对再生料聚酯纤维力学性能影响[J]. 青岛大学学报:工程技术版, 2017,32(3):122-125.
[10] Constandache O, Cerempei A, Muresan R, et al. Study of dyeing and obtaining antimicrobial effects of virgin and recycled polyester fibers[J]. Materiale Plastice, 2015,52(1):24-27.
[11] 武宁宁. 热处理对改性聚酯纤维及织物结构性能的影响[D]. 上海:东华大学, 2014.
[12] 杜兵, 徐畅, 张文蔚. 碱减量对涤纶织物涂料染色性能的影响[J]. 纺织科技进展, 2013(1):49-51.
[13] 刘国军, 赵耀明, 庄慧卿,等. 仿真丝改性涤纶研究-Ⅲ.改性涤纶碱减量处理及仿真丝效果研究[J]. 合成纤维工业, 1992,15(4):20-25.
[14] 于景超. 夜光纤维针织面料的研究与开发[D]. 西安:西安工程大学, 2011.
[15] 纪惠军, 范雪荣. 新型剥色体系还原清洗分散染料染色涤纶织物的研究[J]. 印染助剂, 2007,24(2):34-36.
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