clinker

简明释义

英[ˈklɪŋkə(r)]美[ˈklɪŋkər]

n. 渣块；炼砖

vi. 炼成渣

vt. 使炼成渣

英英释义

单词用法

同义词

反义词

例句

1.The composition of clinker from shaft kilns, the mineral substances as well as forming conditions were analyzed.

分析了不同形状的立窑熟料的成分、矿物组成及形成条件。

2.The red mudstone at action of cement clinker shows good cementing properties.

活化红泥岩在水泥熟料激发条件下呈现优良的胶凝性能。

3.The clinker burning mechanism according to the crystal seeds theory and the activity of the dehydrated phase are analysed.

根据晶种理论和水化物脱水相的反应活性分析了熟料烧成机理。

4.Third, they are mixing more additives into their cement, and so reducing the proportion of emissions-intensive clinker.

第三，还可以通过在水泥中加入更多的添加剂以减少生产中会产生大量二氧化碳的溶渣的比例。

5.Comparative study on X-ray methods for quantitative phase analysis of cement clinker.

水泥熟料X射线定量物相分析方法的对比研究。

6.Experience about reducing heat consumption of clinker accumulated through research and practice over the years proves effective.

经过多年的研究和实践，积累了降低熟料热耗的经验，证明这些措施是有效的。

7.The white cement without clinker was prepared by metakaolinite, lime and gypsum as main raw materials.

以偏高岭土、石灰和石膏为主要原料制得无熟料白水泥。

8.In the cement industry, clinker 水泥熟料 is produced by heating limestone and clay.

在水泥行业中，水泥熟料是通过加热石灰石和粘土生产的。

9.The old brick building was made of clinker 熟料砖, which gave it a unique appearance.

这座老砖建筑是用熟料砖建造的，这使它具有独特的外观。

10.The construction crew used a lot of clinker 熟料 to build the new road.

施工队使用了大量的熟料来修建这条新路。

11.The pottery artist incorporated clinker 陶土 into her latest sculpture for added texture.

这位陶艺家在她最新的雕塑中加入了陶土以增加质感。

12.After the fire, the fireplace was filled with clinker 煤渣 that needed to be cleaned out.

火灾后，壁炉里充满了需要清理的煤渣。

作文

In the world of construction and engineering, materials play a crucial role in determining the strength and durability of structures. One such material that has gained significant attention is clinker, which is a key component in the production of cement. Understanding what clinker is and its importance in the construction industry can provide valuable insights into modern building practices.Clinker is produced during the cement manufacturing process when limestone and other materials are heated to high temperatures in a kiln. This process, known as calcination, results in the formation of hard, nodular particles that are then ground into a fine powder to create cement. The quality of clinker directly affects the properties of the final cement product, which in turn influences the overall performance of concrete in construction projects.One of the primary reasons why clinker is so vital in construction is its ability to enhance the strength of concrete. When mixed with water, aggregates, and other additives, clinker-based cement forms a paste that binds the materials together, creating a solid structure. The chemical reactions that occur during hydration lead to the formation of calcium silicate hydrates, which are responsible for the compressive strength of concrete. Therefore, the quality of clinker used in cement production is essential for ensuring that buildings, bridges, and other infrastructures can withstand various loads and stresses over time.Moreover, the environmental impact of clinker production cannot be overlooked. The traditional method of producing clinker is energy-intensive and contributes significantly to carbon dioxide emissions. As the construction industry strives to become more sustainable, researchers are exploring alternative methods to reduce the reliance on clinker. For instance, using supplementary cementitious materials like fly ash or slag can partially replace clinker in cement formulations, leading to lower carbon footprints and improved sustainability.In addition to its structural benefits, clinker also plays a role in the economic aspects of construction. The demand for high-quality clinker has led to advancements in manufacturing technologies and processes, resulting in more efficient production methods. This not only helps to meet the growing needs of the construction industry but also drives competition among manufacturers, ultimately benefiting consumers through better pricing and quality.As the construction landscape continues to evolve, the significance of clinker remains steadfast. Whether it is in residential buildings, commercial complexes, or infrastructure projects, clinker serves as a foundational element that underpins the safety and longevity of our built environment. Understanding its role not only highlights the importance of material science in construction but also emphasizes the need for innovation in addressing environmental challenges associated with its production.In conclusion, clinker is more than just a technical term in the construction industry; it embodies the intersection of engineering, sustainability, and economics. As we look towards the future, embracing advancements in clinker production and utilization will be crucial in building a resilient and sustainable world. By prioritizing the quality and efficiency of clinker in cement manufacturing, we can ensure that our structures are not only strong and durable but also environmentally conscious.

在建筑和工程领域，材料在决定结构的强度和耐久性方面起着至关重要的作用。一个引起显著关注的材料是熟料，它是水泥生产中的关键成分。理解熟料是什么以及它在建筑行业中的重要性，可以为现代建筑实践提供有价值的见解。熟料是在水泥制造过程中，当石灰石和其他材料在窑中加热到高温时产生的。这一过程称为煅烧，形成坚硬的颗粒，然后将其磨成细粉以制成水泥。熟料的质量直接影响最终水泥产品的特性，这反过来又影响混凝土在建筑项目中的整体性能。熟料在建筑中如此重要的主要原因之一是它能够增强混凝土的强度。当与水、骨料和其他添加剂混合时，基于熟料的水泥形成一种粘合材料，将材料结合在一起，创建一个坚固的结构。在水化过程中发生的化学反应导致生成硅酸钙水合物，这些物质负责混凝土的抗压强度。因此，在水泥生产中使用的熟料的质量对于确保建筑、桥梁和其他基础设施能够承受各种负荷和应力至关重要。此外，熟料生产对环境的影响也不容忽视。传统的熟料生产方法能耗高，并且对二氧化碳排放贡献显著。随着建筑行业努力实现可持续发展，研究人员正在探索减少对熟料依赖的替代方法。例如，使用补充水泥材料，如粉煤灰或矿渣，可以部分替代水泥配方中的熟料，从而降低碳足迹并改善可持续性。除了结构性好处外，熟料还在建筑的经济方面发挥着作用。对高质量熟料的需求促使制造技术和工艺的进步，导致更高效的生产方法。这不仅有助于满足建筑行业日益增长的需求，还推动了制造商之间的竞争，最终通过更好的定价和质量使消费者受益。随着建筑格局的不断演变，熟料的重要性始终如一。无论是在住宅建筑、商业综合体还是基础设施项目中，熟料都作为支撑我们建成环境安全性和持久性的基础元素。理解其作用不仅突显了材料科学在建筑中的重要性，还强调了在解决其生产相关环境挑战时创新的必要性。总之，熟料不仅仅是建筑行业中的一个技术术语；它体现了工程、可持续性和经济学的交汇点。展望未来，拥抱熟料生产和利用的先进技术，对于建设一个有韧性和可持续的世界至关重要。通过优先考虑熟料在水泥制造中的质量和效率，我们可以确保我们的结构不仅坚固耐用，而且环保意识强。