普通的钢筋混凝土结构已经不能满足要求。
The ordinary structure of armored concrete can't already meet the demands.
一般情况下普通的型钢混凝土结构就能解决此题目,但对于超高、大跨、重型结构则采用型钢高强高性能混凝土更能满足在承载力和延性方面的要求。
In normal cases, steel reinforced concrete structure is able to resolve this problem, but sometimes it is necessary to use SRHSHPC to meet bearing capacity and ductility requirements.
稀浆封层与普通沥青混凝土相比具有:(1)超薄的结构厚度。
In comparison with ordinary bituminous concrete to seal the surface with dilute bitumen has the following features: (1) extra-thin thickness of structure.
本文模型也适用于普通混凝土结构的非线性分析。
Also this model can be used in nonlinear analysis of reinforced concrete structure.
接长单板适合于混凝土模板、结构胶合板和表面需二次加工的普通胶合板生产。
The scarf jointed veneers were good for making plywood used for concrete formworks, structure and surface finishing.
首先,分析了型钢与混凝土之间的粘结机理,并与普通钢筋混凝土结构进行了比较。
At first, the bond mechanism between shape steel and concrete compared with that of normal reinforced concrete is analysed.
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。
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.
其中一榀模型为普通钢筋混凝土结构,另一榀模型在底部转换梁施加了预应力,并在底部转换梁及部分杆件采用了钢骨混凝土。
In which one of them was common reinforced concrete structure, and the other used prestressed steel reinforced concrete (PSRC) in bottom chord of the transfer structure.
它既是混凝土结构健康监测的智能元件,又具有普通骨料的功能,很好地解决了压电传感器与主体结构相结合时出现的各种实际问题。
The new smart sensor has the functions of both smart elements and the normal aggregate in concrete materials and can be used to solve problems caused by the combination of two materials.
然而和普通钢筋混凝土一样,预应力混凝土中存在的一个主要问题是钢筋抗腐蚀能力弱,结构耐久性差。
However, like general reinforcement concrete structure, a main problem in prestressed concrete is the poor corrosion resistance of steel tendon which may lead to the lower durability construction.
由于预应力钢筋的存在,使得预应力混凝土结构与普通混凝土结构的力学性能表现不一致。
Because of prestressed tendons persisting, the performance of prestressed concrete structure is different from that of reinforced concrete structure.
通常情况下,大幅度提高抗压强度混凝土用于预应力结构比普通钢筋混凝土建造的。
Ordinarily, concrete of substantially higher compressive strength is used for priestess's structures than for those constructed of ordinary reinforced concrete.
本文在约束系数矩阵法的基础上,进一步提出了适用于碾压混凝土坝和普通大体积混凝土结构的温差控制标准的直接计算法。
A direct calculative method, based on restraint matrix and FEM, is proposed to calculate temperature control standard for mass concrete and RCC DAMS.
然而,高强混凝土与普通混凝土相比,结构密实,脆性更大,渗透性低,抗火性能差。
However, comparing with the common concrete, the strict construction, the greater crisp character and the lower penetrability, lower firefighting properties.
然而,高强混凝土与普通混凝土相比,结构密实,脆性更大,渗透性低,抗火性能差。
However, comparing with the common concrete, the strict construction, the greater crisp character and the lower penetrability, lower firefighting properties.
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