annealer

简明释义

[əˈniːlə][əˈniːlər]

n. [炉窑] 退火炉;炼韧器

英英释义

A device or machine used to heat materials, typically metals or glass, to a specific temperature and then cool them down slowly to remove internal stresses.

一种用于加热材料(通常是金属或玻璃)到特定温度,然后缓慢冷却以消除内部应力的设备或机器。

单词用法

glass annealer

玻璃退火炉

metal annealer

金属退火炉

heat treatment annealer

热处理退火炉

industrial annealer

工业退火炉

同义词

heat treater

热处理工

The heat treater adjusts the temperature for optimal material properties.

热处理工调整温度以获得最佳材料特性。

tempering furnace

回火炉

The tempering furnace is crucial for improving the toughness of steel.

回火炉对于提高钢材的韧性至关重要。

furnace operator

炉操作员

As a furnace operator, safety protocols must always be followed.

作为炉操作员,必须始终遵循安全协议。

反义词

cooler

冷却器

The cooler helps to lower the temperature of the metal after it has been heated.

冷却器有助于在金属加热后降低其温度。

freezer

冰箱

The freezer is used to preserve food by keeping it at low temperatures.

冰箱用于通过保持低温来保存食物。

例句

1.The furnace temperature control and the after-burning control widely-used for continuous annealer in late years are mainly described.

主要介绍了炉温控制和近年来在连续退火炉中广泛应用的二次燃烧控制。

2.The furnace temperature control and the after-burning control widely-used for continuous annealer in late years are mainly described.

主要介绍了炉温控制和近年来在连续退火炉中广泛应用的二次燃烧控制。

3.The efficiency of the annealer can greatly affect the overall quality of the final product.

退火炉的效率会极大影响最终产品的整体质量。

4.After the metal parts are shaped, they are placed in the annealer to improve their ductility.

金属零件成型后,会放入退火炉中以提高其延展性。

5.In semiconductor fabrication, an annealer is used to activate dopants in silicon wafers.

在半导体制造中,退火炉用于激活硅晶圆中的掺杂剂。

6.The annealer is crucial in the glass manufacturing process to ensure products are stress-free.

在玻璃制造过程中,退火炉是确保产品无应力的关键。

7.The annealer helps to relieve internal stresses in the material during the cooling process.

在冷却过程中,退火炉有助于缓解材料内部的应力。

作文

In the world of materials science and manufacturing, the term annealer refers to a specialized device or process used to heat materials, typically metals or glass, to a specific temperature and then allow them to cool slowly. This process is known as annealing, and it serves multiple purposes, including relieving internal stresses, improving ductility, and enhancing the overall microstructure of the material. The role of an annealer is crucial in ensuring that the final product meets the desired mechanical properties and performance standards. For instance, in the production of steel, the annealer helps to create a more uniform grain structure, which can significantly improve the strength and toughness of the metal.One of the key benefits of using an annealer is its ability to refine the properties of materials. During the annealing process, the heat allows atoms in the material to move more freely, enabling them to rearrange into a more stable configuration. This atomic rearrangement can lead to a decrease in hardness and an increase in malleability, making the material easier to work with. For example, in the glass industry, an annealer is essential for producing high-quality glass products. By controlling the cooling rate, manufacturers can prevent the formation of defects such as bubbles and cracks, resulting in a smoother and more aesthetically pleasing final product.Moreover, the use of an annealer is not limited to metals and glass; it can also be applied in the processing of polymers and ceramics. In polymer manufacturing, for instance, annealing can help to reduce residual stresses that may have developed during the molding or extrusion processes. By allowing the polymer to relax at elevated temperatures, an annealer can improve the dimensional stability and mechanical properties of the final product.The technology behind annealers has evolved significantly over the years. Modern annealers are often equipped with advanced controls and monitoring systems that ensure precise temperature management and uniform heating. This level of control is essential for high-volume production environments where consistency and quality are paramount. Additionally, energy efficiency has become a critical consideration in the design of annealers, leading to the development of more sustainable practices in the manufacturing sector.In conclusion, the role of an annealer in material processing cannot be overstated. It is a vital component that contributes to the enhancement of material properties, ensuring that products meet the rigorous demands of various applications. As industries continue to evolve, the importance of effective annealing processes will only grow, highlighting the need for ongoing innovation and improvement in annealer technology. Understanding the significance of an annealer allows us to appreciate the complexities involved in material science and the importance of precision in manufacturing processes.

在材料科学和制造领域,术语annealer指的是一种专用设备或工艺,用于将材料(通常是金属或玻璃)加热到特定温度,然后缓慢冷却。这个过程称为退火,它具有多种目的,包括释放内部应力、提高延展性以及改善材料的整体微观结构。annealer的作用对于确保最终产品满足所需的机械性能和性能标准至关重要。例如,在钢铁生产中,annealer有助于创造更均匀的晶粒结构,这可以显著提高金属的强度和韧性。使用annealer的主要好处之一是它能够改善材料的性能。在退火过程中,热量使材料中的原子能够更自由地移动,使它们能够重新排列成更稳定的配置。这种原子的重新排列可以导致硬度降低和可塑性增加,从而使材料更易于加工。例如,在玻璃工业中,annealer对于生产高质量玻璃产品至关重要。通过控制冷却速率,制造商可以防止形成气泡和裂缝等缺陷,从而产生更光滑、更美观的最终产品。此外,annealer的使用不仅限于金属和玻璃;它还可以应用于聚合物和陶瓷的加工。在聚合物制造中,例如,退火可以帮助减少在成型或挤出过程中可能产生的残余应力。通过在高温下让聚合物放松,annealer可以改善最终产品的尺寸稳定性和机械性能。现代annealers的技术已经显著发展。现代annealers通常配备先进的控制和监测系统,以确保精确的温度管理和均匀加热。这种控制水平在高产量生产环境中至关重要,因为一致性和质量是首要考虑因素。此外,能源效率已成为annealers设计中的关键考虑因素,推动了制造业更可持续实践的发展。总之,annealer在材料加工中的作用不容小觑。它是一个重要组成部分,有助于改善材料性能,确保产品满足各种应用的严格要求。随着各行业的不断发展,有效退火过程的重要性只会增加,这突显了在annealer技术中持续创新和改进的必要性。理解annealer的重要性使我们能够欣赏材料科学中的复杂性以及制造过程中的精确性的重要性。