Light weight plastic spheres from recycled plastics have been commonly used in the design and construction of lightweight hollow-core concrete slabs. While this approach is regarded as an effective method to reduce the dead load of slabs and to increase the imposed load carrying capacity, limited technical information exists about the benefits of hollow core concrete slabs and their structural performance. A literature review on the engineering databases uncovered some awards and application articles on the technologies, but little analysis about its structural performance can be found. In this paper, Strand 7 Finite Element Analysis in conjunction with Rhinoceros 4 3D CAD software was used to create composite FEA models of concrete slabs. These composite models were loaded to observe stresses and cracked section behaviour in both hollow-core concrete slabs and solid concrete slabs to determine the relative merits of hollow core concrete slabs over regular solid concrete slabs.
展开▼
机译:由再生塑料制成的轻质塑料球通常用于轻质空心混凝土板的设计和建造。尽管该方法被认为是减少板的静载并增加施加的承载能力的有效方法,但是关于空心混凝土板的益处及其结构性能的技术信息有限。有关工程数据库的文献综述发现了有关该技术的一些奖项和应用文章,但对其结构性能的分析却很少。在本文中,将Strand 7有限元分析与Rhinoceros 4 3D CAD软件结合使用来创建混凝土板的复合FEA模型。加载这些复合模型以观察空心混凝土板和实心混凝土板中的应力和开裂截面行为,以确定空心混凝土板与常规实心混凝土板的相对优点。
展开▼
