1) Unbonded tendons
无粘结力筋
1.
A comparison is made between two kinds of prestressed concrete structures with bonded and unbonded tendons with regard to their advantages and drawbacks.
比较了有粘结与无粘结力筋两种预应力混凝土结构的优缺点。
2) unbonded tendons
无粘结预应力筋
1.
Effects of corrosion of the unbonded tendons on the mechanical behavior of the tendons and bearing capability of the structure are discussed.
无粘结预应力混凝土结构的耐久性问题是无粘结预应力结构使用的关键问题,但是目前对无粘结预应力筋的防腐蚀研究还不完善,有待于深入和发展。
2.
The embedment of unbonded tendons,the calculation of elongation value,the key points in construction of swimming anchor angle tension and so on are introduced,providing a reference for relevant construction.
详细介绍了无粘结预应力筋的预埋方法、伸长值的计算方法以及游动锚变角张拉的施工要点等,为相关施工提供了参考。
3) unbonded prestressed tendons
无粘结预应力筋
1.
Characteristics and applications of equivalent loads in unbonded prestressed tendons;
无粘结预应力筋等效荷载的特性与应用
5) unbonded tendon
无粘结筋
1.
Law of stress increment in unbonded tendons for concrete simple beams and slabs;
预应力混凝土简支梁板中无粘结筋应力增长规律
2.
Comparison of formulas for calculating the ultimate stress increment in unbonded tendons
无粘结筋极限应力增量计算公式对比分析
3.
The method for calculating stresses in unbonded prestressing tendons is proposed as follows:calculating the deflection of two-span continuous beam subjected to external load by equal stiffness method which is accord with stiffness formulae of design criteria;calculating the elongation of unbonded tendons;calculating stresses in unbonded prestressing tendons due to elongation.
合理考虑两跨连续梁在加载过程中受力模式的变化和无粘结筋的应力增量对支座控制截面正截面抗弯承载力的贡献,选择合理的结构“失效”标志,就可应用相关设计规程所给刚度计算公式按等刚度法计算结构的变形,求得无粘结筋在外载下的伸长,从而确定无粘结筋极限应力。
6) unbonded tendons
无粘结筋
1.
Laws of stress increment in unbonded tendons in concrete beams and slabs at serviceability stage
混凝土梁板中无粘结筋应力增长规律
补充资料:筋疲力敝
1.同"筋疲力尽"。
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