|
Civil Engineering Construction6 J" S3 s2 s7 V( w4 r6 V/ F! V' _
Key words: Reinforced Concrete 、Earthwork 、Safety
! `6 [2 i1 k0 T% l9 |# j; P/ f6 a. \ 2.1 Reinforced Concrete
- `% i3 N. j/ a1 _9 K& S: S7 s+ d Plain concrete is formed from a hardened mixture of cement ,water ,fine aggregate, coarse aggregate (crushed stone or gravel),air, and often other admixtures. The plastic mix is placed and consolidated in the formwork, then cured to facilitate the acceleration of the chemical hydration reaction lf the cement/water mix, resulting in hardened concrete. The finished product has high compressive strength, and low resistance to tension, such that its tensile strength is approximately one tenth lf its compressive strength. Consequently, tensile and shear reinforcement in the tensile regions of sections has to be provided to compensate for the weak tension regions in the reinforced concrete element.
6 P i _$ K6 X 土木工程施工
' {7 B) `9 g1 D" n2 w1 E 关键词:钢筋混凝土、土方工程、安全度& p( ^* |+ R% ?$ e: ?
1.1钢筋混凝土8 k1 V3 h5 i0 L$ V# Y
素混凝土是由水泥、水、细骨料、粗骨料(碎石或;卵石)、空气,通常还有其他外加剂等经过凝固硬化而成。将可塑的混凝土拌合物注入到模板内,并将其捣实,然后进行养护,以加速水泥与水的水化反应,最后获得硬化的混凝土。其最终制成品具有较高的抗压强度和较低的抗拉强度。其抗拉强度约为抗压强度的十分之一。因此,截面的受拉区必须配置抗拉钢筋和抗剪钢筋以增加钢筋混凝土构件中较弱的受拉区的强度。 6 W4 F+ S$ {* `& Y( v
| 
