摘要复合材料贮罐是复合材料制品中应用最广泛的一种产品结构形式,是用于贮存和运输物料的容器。它是由玻璃纤文增强体和基体树脂按照特定的比例,并依据特定的工艺复合加工而成。并且因为其具有很多方面的优点,已经在逐渐取代传统金属贮罐了。35447
复合材料贮罐在发达国家以及发展中国家中的应用已经非常广泛,目前已在化工、石油、冶金、医药、食品等各工业领域得到应用,是继金属贮罐以来应用历史最长、应用量最大的一类贮罐。复合材料贮罐正朝着多功能化、多品种、复合化、大型化、低成本的方向发展。
本设计要求设计一个100立方FRP盐酸卧式贮罐,此设计着重从造形设计、性能设计、结构设计、工艺设计、零部件设计以及安装设计等方面做出详细的计算与说明。并从中学习复合材料贮罐设计的具体流程,并且探讨复合材料的各种性能和特点。
毕业论文关键词:复合材料;卧式贮罐;纤文增强体;树脂基体;盐酸。
Abstract
Composite tank is a composite material products in the most widely used form of a product structure, it is a container for storage and transport of materials. It is made of glass fiber and a specific proportion of matrix resin member reinforced in accordance with, and processed according to the particular complex process. And because it has an advantage in many aspects, it has been gradually replaced the traditional metal tank.
Composite tank in developed and developing countries has been very widely applied, has been used in various industrial fields of chemical, petroleum, metallurgy, medicine, food, etc., it is the second longest since the metal tank application history, the largest application a class tank. Composite tanks are moving towards multi-functional, multi-species, complex, large-scale, low-cost direction.
This design requires the design of a FRP hydrochloric horizontal tank, the design focuses on making detailed calculations and instructions from shape design, performance, design, structural design, process design, component design and installation design and other aspects. And learn specific processes composite tank design, and to explore the performance and characteristics of composite materials.
KeyWords:Composites; horizontal tank; fiber reinforcement; resin matrix; hydrochloric acid.
目 录
第一章 绪论 1
1.1文献综述 1
1.1.1玻璃钢简介 1
1.1.2玻璃钢的特点 1
1.1.3玻璃钢产品的应用 3
1.1.4玻璃钢贮罐发展概况 4
1.1.5玻璃钢贮罐的分类及特点 5
1.1.6玻璃钢贮罐的发展趋势 8
1.2设计的目的和意义 8
1.3本设计的基本规格和性能指标要求 9
第二章 造形设计 11
2.1 贮罐造型的确定 11
2.2 贮罐筒体尺寸的确定 12
2.3封头的选择与确定 14
2.4支座的选择与位置确定 16
2.4.1鞍座位置的确定 16
2.4.2支座相关尺寸的确定 17
第三章 性能设计 19
3.1 选材的基本原则 19
3.2 增强材料的选择 20
3.3 树脂基体的选择 20
3.4层合结构 22
第四章 结构设计 25
4.1 贮罐受力简图 25
4.2作用在贮罐上的均布载荷 26
4.2.1总载荷的计算 26
4.2.2贮罐单位长度上的均布载荷 26
4.3贮罐受力分析及计算 27 100立方米FRP盐酸卧式贮罐的设计:http://www.751com.cn/cailiao/lunwen_33399.html