钻井油基泥浆废弃物作为原料资源:粘土回收及其在聚酰胺6复合材料中的应用研究

IF 2.6 Q3 ENERGY & FUELS
Shohel Siddique , Pak Sing Leung , James Njuguna
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引用次数: 7

摘要

为了使危险的油基泥浆废弃物资源化,本研究研究了再生纳米粘土及其作为填充材料增强聚酰胺6聚合物基体成为新型聚合物复合材料的应用。本文研究了从油基泥浆中回收的多种粘土矿物的复合混合物对聚酰胺-6 (PA6)/油基泥浆填料(OBMFs)纳米复合材料不同力学性能的协同效应。采用双螺杆挤出机将OBMFs与PA6熔融复合,然后进行注塑成型,制备了PA6/OBMFs纳米复合材料。研究表明,该材料的力学性能得到了显著改善。例如,在PA6基体中,OBMFs的拉伸性能随着载荷的增加而增加。添加7.5 wt%和10 wt% OBMFs纳米复合材料的PA6的杨氏模量分别提高了42%和35%,而添加7.5 wt%和10 wt% OBMFs纳米复合材料的PA6的拉伸强度分别提高了24%和16%。在PA6中,OBMFs从0 wt%添加到10 wt%,抗弯强度增加了26%。在30℃下,含10 wt% OBMFs的纳米复合材料的存储模量比纯PA6的存储模量高16%,而在60℃(玻璃化温度,纯PA6的Tg)下,含10 wt% OBMFs的PA6的存储模量比纯PA6的存储模量高56%。研究表明,对油基泥浆废弃物进行合理治理,可为聚合物技术开发新的原料资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Drilling oil-based mud waste as a resource for raw materials: A case study on clays reclamation and their application as fillers in polyamide 6 composites

Drilling oil-based mud waste as a resource for raw materials: A case study on clays reclamation and their application as fillers in polyamide 6 composites

To convert the hazardous oil-based mud waste into a resource, this study has addressed reclaimed nanoclays and its application as a filler material for reinforcing polyamide 6 polymer matrix into a novel polymer composite material. This work focuses on the synergistic effect of complex mixture of various clay minerals reclaimed from oil-based mud waste on different mechanical properties in polyamide-6 (PA6)/oil-based mud fillers (OBMFs) nanocomposites. PA6/OBMFs nanocomposites were manufactured through the melt compounding of OBMFs with PA6 in a twin-screw extruder followed by injection moulding.

The study shows significant improvement for mechanical properties. For instance, the tensile properties increased with the incremental loadings of OBMFs in PA6 matrix. The Young's moduli were increased by 42% and 35% in PA6 with 7.5 and 10 wt% OBMFs nanocomposites respectively whereas the tensile strengths were increased by 24% and 16% in PA6 with 7.5 and 10 wt% OBMFs nanocomposites respectively. The flexural strength increased by 26% with the addition of OBMFs from 0 to 10 wt% in PA6. The storage modulus of the nanocomposite containing 10 wt% OBMFs was 16% higher than the storage modulus of neat PA6 at 30 °C, whereas at 60 °C (glass transition temperature, Tg of neat PA6) the storage modulus of PA6 with 10 wt% OBMFs was 56% higher than that of neat PA6. The study shows that the oil-based mud waste can be appropriately management to develop a new raw materials resource for polymer technology.

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