Thermal stress and temperature control is crucial in mass concrete structure.
在大体积混凝土结构中,温度应力和温度控制具有重要的意义。
It is a common practice to set embedded joint in the construction of mass concrete structure.
在钢筋混凝土结构中设置后浇带是目前常采用的一种方法。
Thus, crack control must be considered while a large mass concrete structure is in construction.
因此大体积混凝土在施工中必须考虑裂缝控制。
In this article, an introduction of the thin coursed pouring technology for the construction of mass concrete structure has been demonstrated by practical engineering examples.
本文结合工程实例,介绍用普通混凝土薄层浇筑大体积结构的经验,并对温控防裂技术作了分析和探讨。
The method can measure both penetrating depth and mass of inhibitor in concrete structure.
此法可测定阻锈剂在混凝土结构中的渗透深度和渗透量;
Mass waterproof concrete structure is a main waterproof barrier of underground works. Its technical crux is how to control temperature cracking of the concrete.
大体积防水混凝土结构是地下防水工程中的主要防水屏障,其技术难点是如何控制混凝土温度裂缝。
A punched concrete frame structure provides thermal mass at the exterior while "bubble" slabs provide radiant cooling and heating.
开孔的混凝土框架结构是建筑外墙隔热层,外观似“气泡”的辐射板为建筑内部提供制冷与供暖。
The concrete structure provides thermal mass and the roof incorporates a large expanse of photovoltaic panels to harvest solar energy.
混凝土结构提供了热量和屋顶将有大量的光电板板来获取太阳能。
The thermal crack problem of the mass concrete is very complicated, and correlative with structure, building material, construction, rock, circumstance, and so on.
大体积混凝土温度裂缝问题十分复杂,涉及到结构、建筑材料、施工、岩土、环境等多方面因素。
During the mass concrete construction in bridge structure, the cement hydration heat is easy to cause surface cracking.
大体积混凝土在桥梁施工过程中,由于水泥水化热容易引起表面裂缝。
During the mass concrete construction in bridge structure, the cement hydration heat is easy to cause surface cracking.
大体积混凝土在桥梁施工过程中,由于水泥水化热容易引起表面裂缝。
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