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1)  Large volume concrete platform
承台大体积砼
2)  mass pile cap
大体积承台
1.
Taking the concreting process of a mass pile cap as an example, the article introduces construction process and temperature control in the concreting of mass pile cap.
文章以某构筑物承台大体积混凝土施工为例,就大体积承台混凝土施工的施工工艺及温度控制进行了论述。
3)  big volume concrete
大体积砼
1.
The technique of building big volume concrete in bridge cap construction for Wuhan-Guangzhou passenger dedicated doubleline railway;
武广客专桥梁承台大体积砼施工技术
2.
With the large scale construction of expressway in China,biulding big volume concrete and how to keep its quality are often met in bridge construction.
随着我国高速公路的兴建 ,在桥梁施工过程中经常会遇到大体积砼的浇注 。
3.
This paper discussed the method constructing in winter and resisting crack to big volume concret
本文论述了大体积砼冬期施工方法及砼裂缝的控制。
4)  Mass concrete
大体积砼
1.
On quality control of mass concrete construction of a project;
浅析某工程大体积砼施工的质量控制
2.
Causes and prevention measures for crack happened in mass concrete;
大体积砼产生裂缝的原因及防治措施
5)  voluminous concrete
大体积砼
1.
Experience of using CAS light swelling admixture for crack proof in voluminous concrete;
大体积砼用CAS微膨胀剂的防裂经验
2.
The skewback foundation of super large span arch bridge belongs to voluminous concrete structures,and a great deal of hydrated heat is generated during constructing,and a biggish difference in temperature between inside and outside of the concrete constructure is formed.
大跨径拱桥拱座基础属于大体积砼结构工程,在浇筑过程中产生大量水化热,使砼体内与表面形成较大温差,产生热应力,从而导致砼体产生深度不等的裂缝。
6)  large volume concrete
大体积砼
1.
This paper expounds the construction techniques and discusses issues on temperature computation and changes in large volume concrete construction.
阐述大体积砼施工技术措施,温度计算、温度变化。
2.
The super-thick large volume concrete of boiler foundation for second phase engineering of Shanghai Wai Gao Qiao Power Plant (2×900 MW generation sets) amounts to 1.
防止大体积砼施工中,因水化热产生的温度应力和收缩应力导致砼出现裂缝是一项重要课题。
3.
The measures solve the problem of large volume concrete crack causing by temperature and gain better results.
结合具体工程实例 ,从砼设计、控制理论计算、原材料使用、砼浇筑和养护以及信息化施工等方面介绍了防止砼产生裂缝的措施 ,最大限度地解决了大体积砼的温度裂缝问题 ,取得了较好的效
补充资料:柱,锥,台体体积公式

v台体=1/3h(s上+√(s下*s上)+s下)

当s上=s下时:

v柱=s*h

当s上=0时:

v锥=1/3s*h

都可根据台体体积推得."s上"为台体上体面,"s下"为台体下底面,"h"为高.

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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