1) reinforced concrete fork pipe with steel liners
钢衬钢筋混凝土岔管
2) reinforced concrete bifurcation pipe
钢筋混凝土岔管
1.
Through computation and analysis of reinforced concrete bifurcation pipe,this paper has given stress distribution of fork part,and analyzed the influence that the change of fork angle has on stress distribution.
通过对钢筋混凝土岔管结构的计算分析,给出了岔管分岔部位的应力分布特征,并分析了分岔角度改变对岔管应力分布的影响,这为钢筋混凝土岔管结构的选形提供了一定的理论依据。
2.
3-D FEM is applied to analyze the reinforced concrete bifurcation pipe of the transferring water series of a hydropower station,the stress distribution is worked out and the reinforcement is schemed considering the stress.
对某水电站引水系统的钢筋混凝土岔管进行了三维有限元分析,给出了岔管的应力分布情况,并按照应力配筋的方法对岔管结构进行了配筋计算,为钢筋混凝土岔管的设计提供了理论依据。
3.
Finite element method is adopted to analysis the reinforced concrete bifurcation pipe in some hydropower station,considering six combined operating conditions in construction and operating processes,the distributions of the stress for bifurcation pipe and wall rock are worked out,and analysis and explain of calculation results is presented.
采用有限单元法对某水电站钢筋混凝土岔管进行了受力分析,在计算过程中,共考虑了施工和运行过程中的6种组合工况,计算出了各种工况下混凝土岔管及围岩的应力分布。
3) reinforced concrete manifold
钢筋混凝土岔管
1.
Study on treatment and relevant problems of HP leakage in reinforced concrete manifold of Guangzhou Pumped Storage Power Station Phase()-Ⅱ project;
广州抽水蓄能电站二期工程钢筋混凝土岔管高压渗水的处理及有关问题探讨
4) steel lined reinforced concrete penstock
钢衬钢筋混凝土管
1.
A hydropower station plans to use Penstock Laid on Downstream Surface of Dam,in order to achieve the security,the construction convenience and the economical goal,This article carries on the comparison to the exposed penstock and steel lined reinforced concrete penstock.
某水电站拟采用坝下游面管的布置形式,为了达到安全、经济和施工方便的目的,对坝下游面明钢管和坝下游面钢衬钢筋混凝土管2种结构形式进行了比较分析。
2.
The integral model of steel lined reinforced concrete penstock was analyzed by nonlinear 3-D finite element method, focusing on stress of steel lining and reinforcing steel bar, cracking status of concrete.
采用将非线性有限元分析与规范解析法相结合的方法,先根据非线性有限元计算的结果,分析得到钢衬钢筋混凝土管的钢筋应力,再将其代入规范解析公式,计算出结构的裂缝宽度,并最终提出了满足结构限裂要求的配筋方案。
5) steel lined-reinforced concrete penstock
钢衬钢筋混凝土管道
1.
The steel lined-reinforced concrete penstock on the downstream surface of concrete dams is widely used in Dongjiang, Jinshuitan, Wuqiangxi, Lijiaxia, Sanxia projects.
坝下游面钢衬钢筋混凝土管道已经广泛应用于东江、紧水滩、五强溪、李家峡、三峡等大中型水电站,但地面式钢衬钢筋混凝土管道在我国尚无工程实例。
6) high pressure R.C.bifurcation
高压钢筋混凝土岔管
补充资料:预应力钢筋混凝土管
预应力钢筋混凝土管
prestressed reinforced concrete pipe
混凝卜管芯 环向预应力钢丝/保碑层//管芯环向钢筋管芯纵向钢筋预应力混凝土管纵剖面图力为6千克/厘米2以下的工农业输水管、城市输水管、煤气管、电厂排灰管和小型水电站引水管等预应力钢筋混凝土管,以及压应力为22.5千克/厘米“、管径2.0米的预应力混凝土管,都已成批生产。预应力钢筋混凝土管主要缺点是性脆、怕碰撞等。yuyingli gangjinhunningtu guan预应力钢筋混凝土管(prestressed rein-foreed eonerete PIPe)在制管过程中,使管身混凝土获得预压应力的钢筋混凝土管,通称预应力混凝土管。’它能承受较高的管内径向压力。广泛用于各种压力式输水管道,以及输油、输气管道等。管的直径在0.4米以下的为小口径管,0.4一1.4米的为中口径管,1.4米以上的为大口径管。管的接头分承插式与平口式两种。承插式管属柔性接头,安装方便,密封止水效果好,见图。平口式管制作简单,但密封效果差,接头易发生断裂、渗漏。管的生产工艺有三阶段和一阶段之分。三阶段制管工艺,首先制作带有预应力或非预应力纵向钢筋的混凝土管芯,然后在管芯上缠绕环向预应力钢丝,最后在环向钢丝外面覆加一层砂浆保护层。一阶段制管工艺是将三个工序合并为一道工序。 预应力钢筋混凝土管,一般能比钢管节省钢材70%左右,降低造价约60%,比一般钢筋混凝土管具有较高的抗裂性和较好的抗渗性。世界各国都在积极推广和扩大生产,并向大口径和轻质高强度方向发展。美国已制成直径为7.62米的大型管。日本现正制造轻质高强管,管内径向压力强度为14.5千克/厘米2,可比一般预应力混凝土管减轻自重23.5%。在中国,压应
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