含低价值脂肪和火山灰添加剂的硫聚合物复合材料的化学、热和机械性能

Q3 Chemistry
Chemistry Pub Date : 2023-10-12 DOI:10.3390/chemistry5040146
Claudia V. Lopez, Katelyn M. Derr, Ashlyn D. Smith, Andrew G. Tennyson, Rhett C. Smith
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引用次数: 0

摘要

高含硫材料(hsm)通过单质硫与动物脂肪和/或植物油的反硫化形成,可以表现出显著的机械强度和耐化学性,有时优于商业建筑产品。添加火山灰细料——粉煤灰(FA)、硅灰(SF)、磨粒高炉渣(GGBFS)或偏高岭土(MK)——可以进一步提高高速切削机床的力学性能和稳定性。在此,我们详细介绍了由变质鸡脂肪、单质硫和菜籽油或葵花籽油组成的九种材料(分别生产CFS或GFS),并添加或不添加FA、SF、GGBFS或MK。基础hsm CFS90或GFS90分别含有90% wt%硫、5% wt%鸡脂肪和5%菜籽油或葵花籽油。对于每种HSM/fine组合,采用95:5的HSM/fine质量输入比制备所得材料。在水中浸泡24小时后,没有材料表现出0.2 wt%的吸水率,明显低于普通波特兰水泥(OPC)的28 wt%。令人印象深刻的是,CFS90, GFS90和所有HSM/fine组合的抗压强度值比OPC高15%至55%。在0.5 M H2SO4中浸泡后,CFS90、GFS90及其衍生物的强度保持在OPC初始强度的90% ~ 171%,而OPC在此条件下发生分解。CFS90、GFS90及其衍生产品共同显示出作为可持续材料和比混凝土性能更好的材料的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chemical, Thermal, and Mechanical Properties of Sulfur Polymer Composites Comprising Low-Value Fats and Pozzolan Additives
High sulfur-content materials (HSMs) formed via inverse vulcanization of elemental sulfur with animal fats and/or plant oils can exhibit remarkable mechanical strength and chemical resistance, sometimes superior to commercial building products. Adding pozzolan fine materials—fly ash (FA), silica fume (SF), ground granulated blast furnace slag (GGBFS), or metakaolin (MK)—can further improve HSM mechanical properties and stability. Herein, we detail nine materials comprised of rancidified chicken fat, elemental sulfur, and canola or sunflower oil (to yield CFS or GFS, respectively) and, with or without FA, SF, GGBFS, or MK. The base HSMs, CFS90 or GFS90, contained 90 wt% sulfur, 5 wt% chicken fat, and 5 wt% canola or sunflower oil, respectively. For each HSM/fine combination, the resulting material was prepared using a 95:5 mass input ratio of HSM/fine. No material exhibited water uptake >0.2 wt% after immersion in water for 24 h, significantly lower than the 28 wt% observed with ordinary Portland cement (OPC). Impressively, CFS90, GFS90, and all HSM/fine combinations exhibited compressive strength values 15% to 55% greater than OPC. After immersion in 0.5 M H2SO4, CFS90, GFS90, and its derivatives retained 90% to 171% of the initial strength of OPC, whereas OPC disintegrated under these conditions. CFS90, GFS90, and its derivatives collectively show promise as sustainable materials and materials with superior performance versus concrete.
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来源期刊
CiteScore
2.50
自引率
0.00%
发文量
0
审稿时长
11 weeks
期刊介绍: Chemistry—A European Journal is a truly international journal with top quality contributions (2017 ISI Impact Factor: 5.16). It publishes a wide range of outstanding Reviews, Minireviews, Concepts, Full Papers, and Communications from all areas of chemistry and related fields.
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