1·The reinforced concrete structure and steel tubular structure are included into the laminated beam arch bridges on the basis of analysis of Bianjing Rainbow Bridge.
在分析汴京虹桥的基础上,将叠梁拱桥扩充到钢筋混凝土结构和钢管结构,并结合实例进一步对单孔叠梁拱桥的构造、设计、计算和施工作了研。
2·The bridge, designed as a timber glue-laminated beam (u shape), does not burden the perception of the space, bearing simple appearance of a large solid piece of timber.
这座被设计为胶合木板梁(U型)的桥没有视觉上的沉重感,它由外形简单的固体木块构成。
3·An accurate account of the contact problem of an elastic indenter and a laminated beam is given by using the mixed finite element method for solving elastic contact problems.
本文采用处理弹性接触问题的有限元混合法研究了弹性压头与复合材料层合梁间的弹性接触问题。
4·The results of the isotropic variable thickness beam obtained by reduction of the solution show that the composite laminated beam theory and the method used for study are correct.
由其获得的各向同性变厚度梁的数值结果表明,本文建立的叠层梁理论和分析方法是正确的。
5·The concrete transfer beam applies laminated beam in construction, and because of the constraint of earlier pouring concrete to later pouring concrete, shear stress is induced in lamination.
混凝土转换梁采用叠合梁的施工方法,由于先浇混凝土对后浇混凝土的约束,使叠合面产生剪应力。
6·The curvilinear virtual laminated beam element, which is based on a new type of virtual laminated element and can be used to the shape optimization that often causes the change of the boundary shape.
本文在虚拟层合单元的基础上,为适应形状优化时边界变化的特点,构造了曲线分层的虚拟层合梁单元。
7·Aimed at the bend of poplar-straw laminated beam, the theory of delamination shearing deformation was used to analyse its bending deflection and strength, and compared the results with other theories.
针对杨木—秸秆层合梁的弯曲问题,利用分层剪切理论对其变形和强度进行了分析。并将分析结果与经典理论、一阶和高阶剪切变形理论的结果进行了比较。
8·Furthermore, it indicates that it is suitable to analyse the ultimate load of a cross-ply laminated short beam with the measured shear strength of cross-interlamination.
文末还说明了,利用测定的正交层间剪切强度来分析正交铺设层合板短梁的极限载荷是合适的。