关键词: 混凝土裂缝, 高海拔, 大温差, 温控防裂, 通水冷却

Abstract: When damming in Tibet region with high altitude and large temperature difference, temperature control and crack prevention are greater challenges. Pipe cooling and surface insulation are common measures for mass concrete temperature control, which are also very effective. It is a kind of technological innovation to flexibly use the existing temperature control and crack prevention technologies to make them play a better role. Taking the dam section on riverbed of a concrete gravity dam in Tibet as an example, the temperature control measures and standards during construction are studied by means of three-dimensional finite element method. The results show that for the concrete gravity dam located at high altitude, lowering the pouring temperature to 12 ℃ can effectively reduce the maximum temperature of concrete and the temperature difference of foundation; increasing the height of cooling zone to 27 m can improve the deformation compatibility of the concrete in dam body; and adopting polystyrene board with a thickness of 5 cm for surface insulation can effectively reduce the surface stress of dam body under construction.

Key words: concrete crack, high altitude, large temperature difference, temperature control and crack prevention, water cooling