1.
Optimal Design of the Web in Corrugated Steel Web Bridge
波纹钢腹板桥梁的腹板优化设计探讨
2.
Sternal muscles include two muscle groups.
腹板肌包括两个肌群。
3.
The surface between the ribs of a ribbed vault
梁腹,腹板某扇形拱的胁拱之间的平面
4.
Probe on Bent-down Bundles and Inclined Cracks of Large-span Continuous Beam Webs
大跨径连续梁腹板下弯束与腹板斜裂缝探讨
5.
Optimization Design of Web Geometry Parameters of Composite Box-girder Bridge with Corrugated Steel Webs
波纹钢腹板组合箱梁桥腹板几何参数优化分析
6.
Analysis of Web and Roof Crack of Continuous Rigid Frame Bridge;
连续刚构桥腹板及顶板裂缝成因分析
7.
Parameter analysis of plate web length of prestressed concrete composite box girder bridge with corrugated steel webs
波形钢腹板PC组合箱梁桥腹板平板长度的参数分析
8.
Small rectangular backup bars were used to fabricate the web-bottom flange connection.
在腹板与下翼缘的施焊中使用小矩形挡板。
9.
A Method for Directly Determining the Distance of Stiffening Ribsfor Thin Web of Steel Plate Beams
一个直接确定钢板梁腹板加劲肋间距的方法
10.
Research on the Post-Buckling Behavior of Thin Plate and the Tension Field Theory of Web;
薄板的曲后性能和梁腹板拉力场理论研究
11.
Nonlinear Finite Element Analysis on Profiled Steel Sheets with Web's Intermediate Stiffeners
腹板有加劲压型钢板的非线性有限元分析
12.
The web had fractured when the ambient temperature was between-12℃ and-23℃.
环境温度在-12℃―-23℃时腹板已经发生断裂。
13.
Floor-beam webs have cracked in tied arch bridges.
在系干拱桥的横梁腹板上发生裂纹。
14.
The web and flanges of the main girders were fabricated from ASTM A441 steel.
主梁的腹板和翼缘用ASTM A441钢制造。
15.
Most often this involved a segment of a girder web.
大多数出现在主渠腹板部分。
16.
Research on the New Type Web Structure of Long-span Prestressed Concrete Continuous Rigid-frame Bridge;
大跨PC连续刚构桥新型腹板构造研究
17.
Plastic Capacity Calculation of Composite Beams with Web Openings;
带腹板开洞组合梁塑性承载力的计算
18.
The Study on Limit Bearing Capacity of Composite Beam with Web Openings;
带腹板开洞组合梁极限承载力的研究