摘要本文探索和研究了不同树脂作为粘合剂在混合超细RDX粉末的喷墨打印情况。实验分别使用不同型号酚醛树脂溶于有机溶剂混合形成粘合剂,再将含能材料与粘合剂混合,制备可用于打印的含能油墨。酚醛树脂型号有105#酚醛树脂,2402#酚醛树脂,210#树脂;有机溶剂使用了乙醇、丙酮、乙酸乙酯和乙酸丁酯。实验还详细研究了溶于乙酸乙酯和乙酸丁酯的硝化棉作为含能油墨黏合剂打印效果,以及含能油墨与特定配比的紫外光固化树脂的配比情况对于整个胶状物质的喷墨打印的影响。64745
实验使用MC400运动平台,Ultra2400点胶机和UVEC-4型紫外光源,运用Visual Basic程序控制打印过程的可控变量,如打印针头距离基板高度,打印行进速度,打印线条间距和点胶机喷墨压力,确保实验变量可控。
毕业论文关键字 喷墨打印 含能油墨 超细RDX粉末 酚醛树脂
毕业设计说明书(论文)中文摘要
毕业设计说明书(论文)外文摘要
Title Ink-jet Printing Characteristics of Energetic Chips
Abstract The ink-jet printing characteristics of RDX energetic inks, in which different resins were used as the binder, were investigated in the dissertation. Different models of phenolic resin was dissolved in orgnic solvent in ordef to form the binder, then the binder was mixed with energetic materials to prepare energetic inks which for printing. The 105# phenolic resin, 2402# phenolic resin and 210# phenolic resin was used in this experiment. Ethanol, acetone, ethyl acetate and butyl acetate was used as organic solvent in the experiment, too. The printing effect of nitrocellulose dissolved in ethyl acetate and butyl acetate as binder in the energetic ink and how the ratio of energetic ink and UV-curable resin effect the printing of Colloidal material was investigated in detail in this experiment.
MC400 motion platform, Ultra2400 Dispenser and UVEC-4 type UV light source was used in this experiment. Visual Basic program was used to control the controllable variables such as the distance of the needle and the substrate, the speed of the printing, the distance between every two lines and the pressure of the dispenser.
Keywords ink-jet printing, energetic ink, superfine RDX powder
目 录
1 绪论 1
1.1 研究背景 1
1.2 快速成型技术概述 1
1.2.1 快速成型技术简介 1
1.2.2 喷墨打印技术 2
1.2.3 本论文的主要研究内容 3
2 含能油墨的制备 4
2.1 实验药品及试剂 4
2.2 酚醛树脂含能油墨的制备 4
2.2.1 酚醛树脂特性介绍 4
2.2.2 105#酚醛树脂含能油墨的制备 5
2.2.3 2402#酚醛树脂含能油墨的制备 5
2.2.4 210#酚醛树脂含能油墨的制备 6
2.3 紫外光固化含能油墨制备 7
2.3.1 紫外光固化树脂的配制 7
2.3.2 含能油墨与紫外光固化树脂比例研究 7
2.3.3 三维打印快速成型系统介绍 8
2.3.4 紫外光固化含能油墨粘度影响因素研究 含能芯片的喷墨打印特性研究:http://www.751com.cn/huaxue/lunwen_72053.html