clinkering
简明释义
n. [冶]熔渣;烧炼
v. 使烧成渣块(clinker 的现在分词)
英英释义
单词用法
水泥熟料;水泥熔渣;水泥烧块 |
同义词
| 叮当声 | The clinking of glasses signaled the start of the celebration. | 酒杯的叮当声标志着庆祝活动的开始。 | |
| 叮咚声 | She loved the tinkling sound of wind chimes on a breezy day. | 她喜欢在微风习习的日子里风铃的叮咚声。 | |
| 响铃声 | 铃声在大厅里回荡。 |
反义词
| 熔化 | 在阳光下,冰块迅速融化。 | ||
| 融合 | 在高温下,金属正在融合。 |
例句
1.When I can the clinkering point …
何时的我才能成熟点…
2.The feasibility of replacing iron powder with copper-mine tails in clinkering of silicate cement was discussed is the paper.
本文研究了用铜尾矿代替铁粉煅烧硅酸盐水泥的可行性;
3.Bed clinkering threaten startup of CFB boiler.
结焦威胁着CFB锅炉的启动。
4.Clinkering can increase routine maintenance, but professional recommendations for matching available fuels to stove design can minimize the problem.
渣块会增加日常维护,但使用匹配炉子设计的专用燃料,可以最大限度地减少问题。
5.Clinkering can increase routine maintenance, but professional recommendations for matching available fuels to stove design can minimize the problem.
渣块会增加日常维护,但使用匹配炉子设计的专用燃料,可以最大限度地减少问题。
6.Example are given to show the tendency of change of clinkering property of coal with pressure.
并举例说明了加压下煤结渣性变化的规律。
7.One of the reasons influencing CFB safe operations return valve clinkering blockage.
料阀结焦堵塞是影响循环流化床锅炉安全运行的原因之一。
8.He enjoyed the clinkering of coins in his pocket as he walked down the street.
他走在街上时,口袋里硬币的叮当声让他感到愉悦。
9.As she poured the wine, the clinkering of the bottle against the glass was soothing.
当她倒酒时,瓶子和玻璃杯之间的叮当声令人感到舒缓。
10.The clinkering of metal tools echoed in the workshop.
金属工具的碰撞声在车间回荡。
11.The clinkering of dishes indicated that dinner was almost ready.
碗碟的碰撞声表明晚餐快要准备好了。
12.The sound of glasses clinkering filled the air as friends toasted to their success.
朋友们为他们的成功干杯时,酒杯叮当作响的声音充满了空气。
作文
In the world of engineering and construction, materials play a crucial role in determining the quality and durability of structures. One such material that has gained attention in recent years is clinker, which is often associated with the process of cement production. However, not all clinkers are created equal, and understanding the concept of clinkering (熟料化) is essential for professionals in the field. Clinkering refers to the process where raw materials, primarily limestone and clay, are heated in a kiln to produce clinker, a nodular material that serves as the primary ingredient in cement. This process is critical because it affects the properties of the final product, including its strength, setting time, and resistance to environmental factors.The clinkering (熟料化) process involves several stages, starting with the careful selection of raw materials. The quality of limestone and clay directly impacts the efficiency of the clinkering (熟料化) process and the characteristics of the resulting clinker. After the materials are crushed and blended, they are fed into a rotary kiln, where they are subjected to extreme temperatures, typically around 1400 to 1600 degrees Celsius. At these temperatures, chemical reactions occur, leading to the formation of various compounds, including tricalcium silicate, dicalcium silicate, tricalcium aluminate, and calcium aluminoferrite. These compounds are essential for the performance of cement, influencing its hydration properties and overall strength.One of the challenges faced during the clinkering (熟料化) process is the formation of undesirable compounds or phases that can negatively affect the quality of the clinker. For instance, excessive formation of free lime can lead to expansion problems in concrete, while an imbalance in the chemical composition can result in poor setting times or reduced strength. Therefore, monitoring and controlling the clinkering (熟料化) process is vital to ensure that the final product meets industry standards and customer expectations.Moreover, the environmental impact of the clinkering (熟料化) process cannot be overlooked. Cement production is one of the largest sources of carbon dioxide emissions globally, primarily due to the high temperatures required for clinkering (熟料化) and the calcination of limestone. As a result, researchers and engineers are continuously exploring alternative methods and materials to reduce the carbon footprint associated with cement production. Innovations such as using waste materials as substitutes for traditional raw materials or developing new types of binders that do not require clinkering (熟料化) are gaining traction in the industry.In conclusion, the process of clinkering (熟料化) is a fundamental aspect of cement production that significantly influences the properties of the final product. Understanding the intricacies of this process is essential for professionals in the construction and engineering sectors. By mastering the principles of clinkering (熟料化), they can contribute to creating more durable, sustainable, and high-quality structures that meet the demands of modern society. As the industry continues to evolve, embracing innovative practices and technologies will be key to addressing the challenges posed by traditional cement production methods.
在工程和建筑领域,材料在决定结构的质量和耐久性方面发挥着至关重要的作用。近年来,熟料作为一种材料引起了关注,它通常与水泥生产过程相关。然而,并非所有的熟料都是相同的,理解clinkering(熟料化)这一概念对于该领域的专业人士至关重要。Clinkering指的是将主要原料石灰石和粘土加热到窑中以生产熟料的过程,这是一种球状材料,作为水泥的主要成分。这一过程至关重要,因为它会影响最终产品的性质,包括强度、凝固时间和对环境因素的抵抗力。Clinkering(熟料化)过程涉及多个阶段,首先是对原材料的仔细选择。石灰石和粘土的质量直接影响clinkering(熟料化)过程的效率和最终熟料的特性。在将材料破碎和混合后,它们被送入旋转窑,在那里它们在大约1400到1600摄氏度的极端温度下受到处理。在这些温度下,发生化学反应,导致各种化合物的形成,包括三钙硅酸、二钙硅酸、三钙铝酸盐和铝铁酸钙。这些化合物对水泥的性能至关重要,影响其水化特性和整体强度。在clinkering(熟料化)过程中面临的挑战之一是形成不良化合物或相,这可能会对熟料的质量产生负面影响。例如,过量的游离石灰的形成可能导致混凝土的膨胀问题,而化学成分的不平衡可能导致凝固时间较差或强度降低。因此,监测和控制clinkering(熟料化)过程对于确保最终产品符合行业标准和客户期望至关重要。此外,clinkering(熟料化)过程的环境影响也不容忽视。水泥生产是全球最大二氧化碳排放源之一,主要由于clinkering(熟料化)所需的高温和石灰石的分解。因此,研究人员和工程师不断探索替代方法和材料,以减少与水泥生产相关的碳足迹。使用废弃材料作为传统原材料的替代品或开发不需要clinkering(熟料化)的新型粘合剂等创新在行业中越来越受到重视。总之,clinkering(熟料化)过程是水泥生产的一个基本方面,显著影响最终产品的性质。理解这一过程的复杂性对建筑和工程行业的专业人士至关重要。通过掌握clinkering(熟料化)的原理,他们可以为创造更耐用、可持续和高质量的结构做出贡献,以满足现代社会的需求。随着行业的不断发展,采用创新实践和技术将是应对传统水泥生产方法带来的挑战的关键。
