acieration

简明释义

[ˌəsiəˈreɪʃən][ˈəsɪrəeɪʃn]

n. 表面钢化;[化学] 碳化;[材] 渗碳

英英释义

Acieration refers to the process of hardening or strengthening a material, particularly metals, through various methods such as heat treatment or alloying.

acieration指的是通过热处理或合金化等各种方法,使材料,特别是金属,变得更坚硬或更强的过程。

单词用法

the process of acieration

acieration的过程

the effects of acieration

acieration的影响

acieration treatment

acieration处理

acieration process

acieration过程

同义词

aceration

划伤

The patient suffered an aceration on his arm after the accident.

事故后,患者的手臂上出现了划伤。

laceration

撕裂伤

She received stitches for the laceration on her leg.

她的腿上的撕裂伤需要缝合。

反义词

deceleration

减速

The deceleration of the car was necessary to avoid an accident.

汽车的减速是避免事故所必需的。

slowing down

放慢

Slowing down during the descent helped maintain control of the aircraft.

在下降过程中放慢速度有助于保持飞机的控制。

例句

1.It is that the Chinese tradition kiln carburizing the example burning acieration handicraft, is also human being history of culture important component.

它是中国传统窑内熏烧渗碳工艺的典范,也是人类文化史的重要组成部分。

2.It is that the Chinese tradition kiln carburizing the example burning acieration handicraft, is also human being history of culture important component.

它是中国传统窑内熏烧渗碳工艺的典范,也是人类文化史的重要组成部分。

3.Understanding acieration can lead to the development of more durable materials.

了解acieration可以促成更耐用材料的发展。

4.Engineers often study the effects of acieration on different alloys.

工程师们经常研究acieration对不同合金的影响。

5.During acieration, the carbon content in iron is carefully adjusted.

acieration过程中,铁中的碳含量被仔细调整。

6.The process of acieration is crucial in metallurgy for enhancing the strength of steel.

在冶金学中,acieration 过程对于增强钢的强度至关重要。

7.The acieration technique has been used for centuries in various cultures.

这种acieration技术在各个文化中已经使用了几个世纪。

作文

In the world of metallurgy, the term acieration refers to the process of converting iron into steel by adding carbon and other alloying elements. This transformation is crucial for creating stronger and more durable materials that are essential in various industries, including construction, automotive, and manufacturing. The history of acieration dates back to ancient times when blacksmiths discovered that by heating iron with charcoal, they could produce a more resilient material. Over the centuries, this knowledge evolved, leading to the development of modern steel-making techniques.Understanding the significance of acieration is vital for anyone interested in engineering or material science. Steel, which is produced through acieration, has become the backbone of modern infrastructure. From skyscrapers to bridges, the strength and versatility of steel allow for innovative architectural designs that were once unimaginable. Additionally, the automotive industry heavily relies on steel for manufacturing vehicles that are not only strong but also lightweight, improving fuel efficiency and safety.The process of acieration itself involves several stages, including the melting of iron ore, refining it to remove impurities, and then adding carbon to achieve the desired properties. Various methods exist for acieration, such as the Bessemer process, the open hearth process, and the electric arc furnace method. Each method has its advantages and disadvantages, affecting the quality and cost of the final product.Moreover, the environmental impact of acieration cannot be overlooked. The steel industry is one of the largest industrial sources of greenhouse gas emissions. As a result, there is a growing emphasis on developing more sustainable practices in steel production. Innovations such as recycling scrap steel and using renewable energy sources in the acieration process are being explored to reduce the carbon footprint associated with steel manufacturing.In conclusion, acieration is a fundamental process in the production of steel, which plays a critical role in shaping our modern world. Its historical significance, industrial applications, and environmental considerations make it a topic worthy of study for those interested in the fields of engineering and sustainability. By understanding acieration, we can appreciate the intricate balance between innovation and environmental responsibility in the quest for stronger and more sustainable materials.

在冶金学中,术语acieration指的是通过添加碳和其他合金元素将铁转化为钢的过程。这一转变对于创造更强大、更耐用的材料至关重要,这些材料在建筑、汽车和制造等各个行业中都是必不可少的。acieration的历史可以追溯到古代,当时的铁匠发现,通过将铁与木炭加热,可以生产出更坚韧的材料。几个世纪以来,这一知识不断发展,导致现代炼钢技术的发展。理解acieration的重要性对于任何对工程或材料科学感兴趣的人来说都是至关重要的。通过acieration生产的钢已经成为现代基础设施的支柱。从摩天大楼到桥梁,钢材的强度和多功能性使得曾经无法想象的创新建筑设计成为可能。此外,汽车工业也严重依赖钢材来制造不仅强大而且轻便的车辆,从而提高燃油效率和安全性。acieration的过程本身包括几个阶段,包括熔化铁矿石、提炼以去除杂质,然后添加碳以达到所需的特性。存在多种方法进行acieration,例如贝塞麦尔工艺、开放炉工艺和电弧炉法。每种方法都有其优缺点,影响最终产品的质量和成本。此外,acieration对环境的影响也不容忽视。钢铁行业是温室气体排放的最大工业来源之一。因此,越来越强调在钢铁生产中开发更可持续的做法。正在探索诸如回收废钢和在acieration过程中使用可再生能源等创新,以减少与钢铁制造相关的碳足迹。总之,acieration是钢铁生产中的一个基本过程,在塑造我们现代世界中发挥着关键作用。其历史意义、工业应用和环境考虑使其成为工程和可持续发展领域值得研究的话题。通过了解acieration,我们可以欣赏到在追求更强大和更可持续材料的过程中,创新与环境责任之间的微妙平衡。