摘要:沥青路面已经广泛应用在道路工程,但在沥青混凝土的生产的这个过程中需要使用大量的石材和石油沥青,而且在其高温生产施工的过程中也会产生大量的有害气体。为了能够寻找一类能够代替或者部分代替石油沥青的物质,从而既可以节能环保也能够降低生产成本的目的;本文主要在生物沥青中添加废旧聚氨酯硬泡,经过高速剪切后加入一定量的MDI,提高其高低温性能,以达到道路铺设所要求的标准。结果表明对生物沥青改性较好的是聚氨酯醇解产物,当添加量为10%-20%时反应最为充分,而且从红外图谱上可以看出此时酯交换反应也是比较明显的,从光学显微图上也可以得出此时产物混合的是最为均匀,产物的各项性能都比较良好。20476
毕业论文关键词: 生物沥青;聚氨酯;MDI;改性
Study of the scrap rigid polyurethane foam Modified Biobinder
Abstract Asphalt pavement has been widely used in road works, but in the production of asphalt concrete this process requires the use of large amounts of stone and asphalt, but also produces large amounts of harmful gases produced during the construction of its high temperature. In order to be able to find a class can replace or partially replace petroleum asphalt material, so both can reduce the energy saving purpose production costs; This paper added in biological waste asphalt polyurethane foam, after a certain amount of high shear MDI improve its high temperature performance, paved road to reach the standard required. The results show that the modified bitumen biological alcohol solution is preferably a polyurethane product, when added in an amount of 10% -20% response most adequate, but can be seen from the IR spectrum at this time the transesterification reaction is more evident from the optical micrographs can draw on at this time is the most uniform product mix, the properties of the product are relatively good.
Keywords: Biobinder; polyurethane; MDI; Modified
目录
1 绪论 1
1.1 生物质沥青 1
1.1.1 生物质沥青简介 1
1.1.2 生物沥青的理化特性: 1
1.1.3 生物沥青的组成: 1
1.1.4 生物沥青制备的工艺研究概况: 2
1.2聚氨酯 2
1.2.1聚氨酯的简介 2
1.2.2聚氨酯的产能现状 2
1.2.3废旧聚氨酯的处理方法 3
1.2.4废旧聚氨酯的醇解工艺研究 3
1.2.5废旧聚氨酯回收应用 3
1.3本课题的研究目的与意义 4
2 实验部分 5
2.1实验原理 5
2.2实验主要原料 5
2.3实验主要设备 5
2.4实验步骤 6
2.4.1羟值测定 6
2.4.2 生物质沥青改性 7
2.5性能检测与表征 8
2.5.1粘度测定的操作步骤 8
2.5.2相容性测定 9
2.5.3 GC-MS数据分析 9
2.5.4红外测试 9
2.5.5H1-NMR核磁共振氢谱分析 9
3 结果与讨论 11
3.1原料的性能表征 11
3.1.1 生物质沥青的粘度的结果与分析 11
3.1.2生物质沥青显微图像 11
3.1.3 生物质沥青的GC-MS数据分析 11
3.1.4生物质沥青红外测定结果与分析 14
3.2产物的性能表征 16
3.2.1 产物粘度的结果与分析 16
3.2.2产物的相容性测定结果与分析 18
3.2.3产物的红外测定结果与分析 20 废旧聚氨酯硬泡改性生物沥青研究:http://www.youerw.com/cailiao/lunwen_12261.html