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Pozzolans01:21

Pozzolans

490
Pozzolans are siliceous or aluminous materials blended with Portland cement. They interact with the calcium hydroxide produced during the hydration of Portland cement and contribute to improved strength and durability of concrete. The pozzolanic activity, a measure of a pozzolan's effectiveness, is typically assessed using the strength activity index, as defined in ASTM C 618-93, which calculates the ratio of the compressive strength of cement mixtures with and without pozzolan.
Fly ash is...
490
Additives and Fillers in Concrete01:29

Additives and Fillers in Concrete

332
Additives and fillers are integral to enhancing the properties of concrete. Pozzolans and blast-furnace slag are additives or admixtures due to their reactions with calcium hydroxide released during cement hydration. Fillers, which are finely ground and similar in fineness to Portland cement, improve concrete attributes such as workability density, and reduce capillary bleeding or cracking. Some fillers possess hydraulic properties or participate in benign reactions within the cement paste.
The...
332
Sample Preparation for Analysis: Advanced Techniques01:08

Sample Preparation for Analysis: Advanced Techniques

1.3K
Accurate analysis of complex samples often requires advanced preparation techniques to achieve reliable and reproducible results. Samples containing inorganic or organic materials can be challenging to dissolve or decompose effectively. Standard sample preparation methods include acid digestion, fusion, dry ashing, and wet digestion.
Acid digestion with strong acids is commonly used to dissolve inorganic materials that are insoluble (do not dissolve) in water. This method can be useful for...
1.3K
Portland Cement01:21

Portland Cement

620
Portland cement is the essential binding ingredient in concrete, made from finely ground materials including lime, iron, silica, and alumina. Lime is derived primarily from limestone, marble, marl, seashells, and clays, which also supply iron and alumina, while silica is sourced from sand, chalk, and bauxite. Contemporary manufacturing of Portland cement is a significant source of carbon dioxide emissions, prompting research into reducing its content in concrete through alternative...
620
Types of Cement II01:22

Types of Cement II

397
Portland blast-furnace cement is made by blending Portland cement clinker with granulated blast-furnace slag, which accounts for 25 to 65 percent of the cement's weight. Despite its similarities to ordinary Portland (Type I) cement in terms of fineness and setting times, its early strength is lower, though it achieves comparable strength later on. It's particularly suited for mass concrete structures and marine environments due to its lower heat of hydration and superior sulfate...
397
Hydration of Cement01:24

Hydration of Cement

817
Hydration of cement is a chemical reaction between cement particles and water. This process occurs primarily through two mechanisms: through-solution and topochemical. In the through-solution process, anhydrous compounds dissolve into their constituents, hydrates form in the solution, and then precipitate from the supersaturated solution. The topochemical process involves solid-state reactions at the cement particle surface. The through-solution process dominates the topochemical process at the...
817

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相关实验视频

Updated: Jan 18, 2026

Two-way Valorization of Blast Furnace Slag: Synthesis of Precipitated Calcium Carbonate and Zeolitic Heavy Metal Adsorbent
11:14

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使用含的半导体废弃物降低水泥结合剂烧结温度.

Bilguun Mend1,2, Youngjun Lee1, Jang-Ho Jay Kim2

  • 1Climate and Energy R&D Group, Korea Institute of Ceramic Engineering and Technology, Jinju 52581, Republic of Korea.

Materials (Basel, Switzerland)
|September 13, 2025
PubMed
概括
此摘要是机器生成的。

在水泥生产中回收工业污泥将烧结温度降低150°C,减少能源使用和二氧化碳排放. 这个过程增强了水泥的形成,并促进了环境的可持续性.

关键词:
在二氧化碳排放方面,二氧化碳排放量混凝土石是用于水泥的.节能节能节能 节能节能节能矿化剂中的矿化剂.半导体污泥中的半导体污泥

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科学领域:

  • 材料科学 材料科学 材料科学
  • 环境工程 环境工程
  • 化学工程是化学工程的重要组成部分.

背景情况:

  • 工业污泥带来了处理方面的挑战.
  • 波特兰水泥生产是能源密集型的,并产生二氧化碳.
  • 矿化剂可以提高块形成的效率.

研究的目的:

  • 评估含的工业污泥作为波特兰水泥生产中的矿化剂.
  • 评估添加污泥对材性能和烧结行为的影响.
  • 为了确定在水泥制造中使用污泥的环境和经济益处.

主要方法:

  • 用6%,9%和12%的污泥替代剂制备原料混合物.
  • 在1300至1500°C的温度下烧结混合物.
  • 分析的可燃性 (FreeCaO),相组合 (XRD与瑞特维尔德精炼) 和化学完整性 (XRF).

主要成果:

  • 添加泥将烧结温度降低了高达150°C,在1300°C时几乎完全形成了块.
  • 稳定了β-C2S,改变了C3S相分布,降低了C3A含量,形成了一个新的Al7Ca6O16F相.
  • 节约了15-22.5%的能源,减少了0.10-0.20/的二氧化碳排放.

结论:

  • 含的工业污泥在波特兰水泥生产中有效地起到矿化剂的作用.
  • 回收污泥提高了水泥生产效率,降低了能源消耗,降低了环境影响.
  • 这种方法为工业废物管理和水泥制造提供了可持续的解决方案.