|
|
- 2015
反应挤出纳米类水滑石/尼龙6复合材料的结构与性能
|
Abstract:
采用自制的双甲氧基苯甲酸根离子柱撑镁铝类水滑石(MgAl-HTlcs)和己内酰胺(CL)为主要原料, 利用反应挤出工艺制备了纳米MgAl-HTlcs/尼龙 6复合材料, 研究了MgAl-HTlcs含量对复合材料结构与性能的影响。TEM照片显示: MgAl-HTlcs在复合材料中呈纳米级均匀分散, 当MgAl-HTlcs含量为1.0wt%(占MgAl-HTlcs与CL总质量的质量分数)时出现了部分片层剥离的类水滑石。紫外光谱结果表明: 与纯尼龙6相比, 少量均匀分散的MgAl-HTlcs使复合材料对近紫外波长为320~380 nm的紫外线吸收效果明显。XRD和DSC结果表明: 少量均匀分散的MgAl-HTlcs对尼龙 6起到了很好的异相成核剂的作用, 不仅提高了其结晶温度, 也增加了其结晶度。热重分析显示: 部分片层剥离MgAl-HTlcs的存在明显提高了复合材料的热稳定性。 With the main raw meterials of self-made double methoxybenzoic acid anion pillared hydrotalcite (MgAl-HTlcs) and caprolactam(CL), nano MgAl-HTlcs/nylon 6 composites were prepared by reactive extrusion, and the effect of MgAl-HTlcs content on microstructure and properties of the composites were investigated. TEM photographs show that MgAl-HTlcs disperse uniformly in composites as nanoscale and there are part exfoliated hydrotalcite in composite with MgAl-HTlcs of 1.0wt%(mass fraction of MgAl-HTlcs, CL total quality). UV-Vis spectra show that, compared with pure nylon 6, the MgAl-HTlcs/nylon 6 composites can strongly absorb the ultraviolet rays whose wavelength is between 320-380 nm. XRD and DSC results show that a small amount of MgAl-HTlcs plays a good role in heterogeneous nucleation of nylon 6, and improves its crystallization temperature and crystallinity. Thermogravimetric analysis shows the exists of part exfoliated MgAl-HTlcs, which improves the thermal stability of composites obviously.
| [1] | Kye H, White J L. Continuous polymerization of caprolactam in a modular intermeshing corotating twin screw extruder integrated with continuous melt spinning of polyamide 6 fiber: Influence of screw design and process conditions[J]. Journal of Applied Polymer Science, 1994, 52(9): 1249-1262. |
| [2] | Fomes T D, Yoon P J, Pual D R. Polymer matrix degradation and color formation in melt processed nylon6/clay nanocomposites[J]. Polymer, 2003, 44(24): 7545-7556. |
| [3] | Fomes T D, Yoon P J, Hunter D L, et al. Effect of organoclay structure on nylon 6 nanocomposite morphology and properties[J]. Polymer, 2002, 43(22): 5915-5933. |
| [4] | Devaux E, Bourbigot S, Achari A E. Crystallization behavior of PA-6 clay nanocomposite hybrid[J]. Journal of Applied Polymer Science, 2002, 86(10): 2416-2423. |
| [5] | Yang X Y. Study on nylon 6/nanocomposites synthesized by reactive extrusion[D]. Nanjing: Nanjing University of Technology, 2006 (in Chinese). 杨晓燕. 反应挤出法制备尼龙 6/纳米复合材料的研究[D]. 南京: 南京工业大学, 2006. |
| [6] | Zhao M. Studies on the fiber grade PA6/montmorillonite nanocomposite chip by twin screw reactive extrusion[D]. Shanghai: Donghua University, 2004 (in Chinese). 赵明. 双螺杆反应挤出纺丝级PA6/蒙脱土纳米复合材料的研究[D]. 上海: 东华大学, 2004. |
| [7] | Nakayama H, Wada N, Tsuhako M. Intercalation of amino acids and peptides into Mg-Al layered double hydroxide by reconstruction method[J]. International Journal of Pharmaceutics, 2004, 269(2): 469-478. |
| [8] | Ma X L, Zhen J H. Synthesis, characterization and UV absorb of p-aminobenzoic acid-LDHs[J]. Acta Materiae Compositae Sinica, 2011, 28(5): 186-191 (in Chinese). 马小丽, 郑建华. 对氨基苯甲酸插层镁铝水滑石的合成、 表征及紫外吸收性能[J]. 复合材料学报, 2011, 28(5): 186-191. |
| [9] | Lu L. Prepared and property study of pillared LDHs with organic UV absorbent[D]. Changchun: Northeast Normal University, 2007 (in Chinese). 路露. 水滑石层柱紫外吸收材料制备及性能研究[D]. 长春: 东北师范大学, 2007. |
| [10] | Yang B J, Xue Z H, Wang B N, et al. Preparation and modification of layered double hydroxidesand application in polypropylene as flame retardant[J]. Acta Materiae Compositae Sinica, 2014, 31(2): 353-361 (in Chinese). 杨保俊, 薛中华, 王百年, 等. 类水滑石的制备与改性及其在聚丙烯阻燃中的应用[J]. 复合材料学报, 2014, 31(2): 353-361. |
| [11] | Yang P P, Su M P, Yang X W, et al. Synthesis of high crystallinity hydrotalcite-like compounds with urea method[J].Chinese Journal of Inorganic Chemistry, 2003, 19(5): 485-490 (in Chinese). 杨飘萍, 宿美平, 杨胥微, 等. 尿素法合成高结晶度类水滑石[J]. 无机化学学报, 2003, 19(5): 485-490. |
| [12] | Sibilia J P, Murthy N S, Gabriel M K, et al. Nylon plastics handbook[M]. New York: Hanser Publication, 1995: 69-106. |
| [13] | Penel-Pierron L, Depecker C, Seguela R, et al. Structural and mechanical behavior of nylon films part 1: identification and stability of the crystalline phases[J]. Journal of Polymer Science Part B: Polymer Physics, 2001, 39(5): 484-495. |
| [14] | Khanna Y P, Kuhn W P. Measurement of crystalline index in nylons by DSC: complexities and recommendations[J]. Journal of Polymer Science Part B: Polymer Physics, 1997, 35 (14): 2219-2231. |
| [15] | Illers K H, Haberkorn H, Simak P. Untersuehungen fiber die γ-strnktur in unverstrecktem and verstrecktem 6-polyamid [J]. Makromolecular Chemistry, 1972, 158(1): 285-311. |
| [16] | Jafari S H, P?tschke P, Stephan M, et al. Thermal behavior and morphology of polyamide 6 based multicomponent blends[J]. Journal of Applied Polymer Science, 2002, 84(14): 2753-2759. |
| [17] | Aamir I K, Li X L, Alexander J N, et al. Intercalation and controlled release of pharmaceutically active compounds from a layered double hydroxide[J]. Chemical Communications, 2001, 21(22): 2342-2343. |
| [18] | Parida K, Das J. Mg-Al hydrotalcites: Preparation, characterisation and ketonisation of acetic acid[J]. Journal of Molecular Catalysis A: Chemical, 2000, 151(1): 185-192. |
| [19] | Boclair J W, Braterman P S, Brister B D, et al. Physical and chemical interactions between Mg-Al layered double hydroxide and hexacyanoferrate[J]. Journal of Solid State Chemistry, 2001, 161(2): 249-258. |
