丝织物阻燃改性:乙烯基磷酸酯接枝技术
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更新于2024-09-06
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"乙烯基磷酸酯对丝织物的阻燃改性"
文章“Flame Resistance Modification with Vinyl Phosphate onto Silk Fabrics”探讨了一种新型的阻燃技术,即通过接枝共聚法将乙烯基磷酸酯(SFR-1)应用到真丝织物上,以提高其阻燃性能。该研究由关晋平和陈国强在苏州大学材料工程学院进行,并且是首发论文。
研究中,作者首先介绍了一种自合成的新型乙烯基磷酸酯阻燃剂SFR-1。为了优化阻燃整理工艺,他们采用了正交实验方法,详细研究了引发剂浓度、单体浓度、反应pH值和反应温度等因素对改性效果的影响。这些因素的选择和控制对于确保阻燃剂成功地接枝到丝织物上至关重要。
通过傅里叶变换红外光谱(FT-IR)分析,研究者证实了SFR-1在接枝处理后确实存在于丝织物上。X射线衍射分析进一步揭示了阻燃剂主要与丝纤维的无定形区域发生反应。这种反应方式有助于保持丝纤维的原有结构,同时赋予其阻燃特性。
研究还通过极限氧指数(LOI)值来评估接枝效率对阻燃性能的影响。LOI值是一种衡量材料燃烧难易程度的指标,数值越高,材料越不易燃烧。此外,作者还测试了改性样品的耐洗耐用性和燃烧后的残炭长度,这两个指标可以反映阻燃效果的持久性和燃烧后残余物的状况。
论文还讨论了接枝处理后丝织物的抗皱恢复性和拉伸强度。结果显示,SFR-1接枝的丝织物不仅具有优异的阻燃性能,而且在保持力学性能方面也有良好的表现。这意味着改性处理不会显著损害丝织物的基本物理性质,使其在实际应用中更具优势。
这项研究提供了一种新的策略来增强丝绸的阻燃性能,这对于纺织工业尤其是在安全要求高的领域,如服装、室内装饰和航空航天等,具有重要的实用价值。通过优化工艺条件,实现了阻燃性和材料原有特性的平衡,为丝绸制品的安全使用提供了技术支持。
Flame Resistance Modification with Vinyl Phosphate
onto Silk Fabrics
GUAN Jin-ping
1∗
CHEN Guo-qiang
2
(1, 2 School of Material Engineering, Soochow University, Suzhou, Jiangsu Province,
P. R. China, 215021)
Abstract: A self-prepared novel vinyl phosphate (SFR-1) was applied to endow silk fabrics flame
resistance property by grafting method. The paper mainly dealt with the optimization of grafting technique.
The effect of initiator concentration, monomer concentration, reaction pH value and reaction temperature
etc. was investigated. FT-IR spectra showed that SFR-1 existed on the silk fabrics after grafted onto silk
fabrics. The reaction between flame retardant and silk mainly occurred in the amorphous region of silk fiber,
which is confirmed by X-ray diffraction analysis. The effect of graft yield on flame retardancy has been
investigated by the Limiting Oxygen Index (LOI) value. Laundry durability of flame retardancy and char
length of the modified sample were also measured. The paper also discussed the wrinkle recovery, tensile
strength of the grafted silk fabrics. The result showed that SFR-1 grafted silk fabrics has excellent flame
retardancy with LOI above 30%. And the grafted silk fabrics have better wet wrinkle recovery than control
silk fabrics. But the treatment has a little effect on the whiteness of the silk fabric and the tensile strength of
grafted silk fabrics slightly decreased; both effects are negligible.
Key words:
Silk; Flame retardancy; Vinyl; Phosphpate; Graft modification
1. INTRODUCTION
According to fire statistics, about 50% of fires are caused by textiles in the world [1].
Silk is widely used to produce pajamas for its luster, soft handle, wearing comfort and
aesthetic appearance. So it is vital for silk fabrics to be finished with flame retardants.
Silk has low natural flammability with LOI value about 23 %, which can be attributed to
its high nitrogen content (about 15~18%) [2]. But it still needs added flame retardancy finish
to fulfill some commercial requirements.
Flame retardancy finishing on silk fabrics can be traced back to 200 years ago, when
∗
Corresponding author: Guan Jin-ping, Dr. of School of Material Engineering ,Soochow University,
E-mail:helengjp@yahoo.com.cn
1
http://www.paper.edu.cn
This work was supported by Specialized Research Fund for the Doctoral Program of Higher Education
(20060285007).
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