...以新型高效减水剂代表的化学外加剂(Chemical Admixtures)和以磨细矿渣、 粉煤灰、 硅灰等为代表的矿物外加剂(Mineral Admixtures), 也称矿物掺合料。 事实上, 现代水泥混凝土的核心技术目 前也主要是围绕着化学外加剂与矿物掺外加剂而展开的[1]。
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inorganic mineral admixtures 无机矿物掺合料
high content mineral admixtures 大掺量矿物掺合料
fine mineral admixtures 矿物细掺料
compound mineral admixtures 掺合料复掺
composite mineral admixtures 复合矿物材料
mineral admixtures to suppress 矿物质粉体
multi-elements mineral admixtures 多元复合矿物外加剂
Fatigue test results show that fatigue life increases with increased content of mineral admixtures when S≤0.80, while decrease when S>0.80.
当S≤0.80时,疲劳寿命N随矿物掺合料掺量的增加而增加;当S>0.80时,疲劳寿命随矿物掺合料掺量的增加而下降。
参考来源 - 矿物掺合料对混凝土疲劳性能的影响及机理·2,447,543篇论文数据,部分数据来源于NoteExpress
It is known that mineral admixtures lead to a densification of the concrete internal structure.
众所周知,矿物掺合剂会导致混凝土内部结构的致密化。
Prerequisites to mineral admixtures being with filling effect, morphologic effect and activity effect are discussed in this paper.
本文讨论了矿物掺合料产生填充效应、形态效应和活性效应的条件。
In modern concrete technology, the mineral admixtures controlled by some indexes has become a prerequisite compose of high performance concrete.
在现代混凝土技术中,经过一定质量控制的矿物掺合料已成为高性能混凝土不可或缺的组分之一。
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