1) longitudinal joint distance
纵缝间距
1.
The effect of longitudinal upstream facing temperature joint on stress distribution in the dam of Baoquan downstream reservoir is studied by use of the 3D finite element method;sensitivity of longitudinal joint distance on temperature contraction stress is analyzed.
采用有限元三维仿真方法研究宝泉电站下水库大坝上游混凝土面板设置垂直纵缝对坝体应力分布的影响,对纵缝间距进行了温度应力的敏感性分析。
2) longitudinal space
纵向间距
3) fore-and-aft distance between ships
舰间纵距
4) vertical clearance
纵间距
5) crack spacing
裂缝间距
1.
The Research for the Crack Spacing of the Reinforced Concrete Beam;
钢筋混凝土梁裂缝间距的试验研究
2.
Cracking positions are the weakest part of Continuously Reinforced Concrete Pavement,and crack spacing and crack width are the two control indexes.
裂缝位置是连续配筋路面的薄弱面,裂缝间距和裂缝宽度则是CRCP配筋设计的两个控制指标。
3.
Taking the Lei yi highway as the main body,This article carries on the long-term observation,makes the research on the law of development of Crack Spacing and Crack width,and then evaluates the crack Spacing and the width fit and unfit quality,Finally it provides the reference to the research on the CRCP long-term performance.
以耒宜高速公路为主体,对连续配筋混凝土路面进行长期跟踪观测,对裂缝间距和裂缝宽度的发展规律进行了分析研究,并对裂缝间距和宽度的优劣进行了评定。
6) crack space
裂缝间距
1.
5 a,and the test results of crack space and crack width were analyzed by using statistical method.
5a的跟踪调查与检测,对裂缝间距和裂缝宽度的测试结果进行了统计分析。
2.
Based on the elastic foundation beam,the control differential equation of tunnel lining is worked out,according to the theory of Saint-Venant,the predominance equation about the center angle to the crack space is established, then the crack space of tunnel lining under the loads can be worked out and according to the crack space,the crack width can be calculated.
基于弹性地基梁建立了隧道衬砌的控制微分方程,根据圣维南原理推出裂缝间距相应中心角应满足的卓越方程,由此求出了隧道衬砌在荷载作用下产生的裂缝间距,进而确定相同裂缝间距和不同裂缝间距情况下的裂缝宽度。
补充资料:板间距
分子式:
CAS号:
性质:又称板间距。板式塔相邻两块塔板之间的距离。塔板间距直接影响塔的高度,并对适宜气速的确定发生重要影响。塔板间距的大小与塔的处理能力、操作弹性、塔板效率和塔径大小密切相关。对塔板数较多或安装在室内的塔,可考虑采用较小的塔板间距,适当增大塔径而降低塔高,若塔板数不多,则塔板间距较大而塔径较小的塔比较经济。当塔内各段负荷不同时,可考虑各板采用不同的塔板间距。
CAS号:
性质:又称板间距。板式塔相邻两块塔板之间的距离。塔板间距直接影响塔的高度,并对适宜气速的确定发生重要影响。塔板间距的大小与塔的处理能力、操作弹性、塔板效率和塔径大小密切相关。对塔板数较多或安装在室内的塔,可考虑采用较小的塔板间距,适当增大塔径而降低塔高,若塔板数不多,则塔板间距较大而塔径较小的塔比较经济。当塔内各段负荷不同时,可考虑各板采用不同的塔板间距。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条