red hardness

简明释义

红硬性

英英释义

例句

1.The metallurgist explained that the steel's red hardness 红硬度 allows it to maintain its strength even at high temperatures.

冶金学家解释说，这种钢的红硬度 红硬度使其在高温下仍能保持强度。

2.The red hardness 红硬度 of the alloy makes it suitable for high-speed machining applications.

该合金的红硬度 红硬度使其适用于高速加工应用。

3.When forging tools, achieving red hardness 红硬度 is crucial for durability.

在锻造工具时，达到红硬度 红硬度对耐用性至关重要。

4.Engineers often test materials for red hardness 红硬度 to ensure they can withstand extreme conditions.

工程师通常测试材料的红硬度 红硬度以确保它们能够承受极端条件。

5.The performance of the drill bit improved significantly due to its red hardness 红硬度 properties.

由于其红硬度 红硬度特性，钻头的性能显著提高。

作文

In the realm of material science, the term red hardness refers to the ability of a metal to retain its hardness at elevated temperatures. This property is crucial for materials that are used in high-temperature applications, such as cutting tools and dies. Understanding red hardness is essential for engineers and designers who aim to select the right materials for specific functions. For instance, when a cutting tool is subjected to high temperatures during machining processes, it must maintain its hardness to effectively cut through materials without deforming or wearing out quickly. The significance of red hardness can be seen in various industries, including aerospace, automotive, and manufacturing. In these fields, components often operate under extreme conditions where heat generation is inevitable. Materials that exhibit high red hardness can withstand such environments, ensuring durability and performance. For example, high-speed steel (HSS) is known for its excellent red hardness, making it a preferred choice for drill bits and milling cutters. Moreover, the concept of red hardness extends beyond just the physical properties of materials; it also influences the economic aspects of production. Selecting materials with superior red hardness can lead to longer tool life, reduced downtime for replacements, and lower overall costs in manufacturing processes. Therefore, understanding this property not only aids in material selection but also contributes to more efficient and cost-effective manufacturing practices. In summary, red hardness is a vital characteristic of materials that determines their performance in high-temperature applications. It plays a critical role in various industries, impacting both the functionality of products and the economics of production. As technology advances and the demand for more resilient materials increases, the study of red hardness will continue to be an important area of research and development in material science.

在材料科学领域，术语红硬度指的是金属在高温下保持其硬度的能力。这一特性对于用于高温应用的材料至关重要，例如切削工具和模具。理解红硬度对工程师和设计师选择特定功能的合适材料至关重要。例如，当切削工具在加工过程中受到高温影响时，它必须保持硬度，以有效切割材料而不变形或快速磨损。红硬度的重要性可以在航空航天、汽车和制造等各个行业中看到。在这些领域，组件通常在极端条件下工作，热量的产生是不可避免的。表现出高红硬度的材料能够承受这样的环境，确保耐用性和性能。例如，高速钢（HSS）以其优良的红硬度而闻名，使其成为钻头和铣刀的首选材料。此外，红硬度的概念不仅仅延伸到材料的物理特性；它还影响生产的经济方面。选择具有卓越红硬度的材料可以延长工具的使用寿命，减少更换的停机时间，并降低制造过程中的整体成本。因此，理解这一特性不仅有助于材料选择，还促进了更高效和经济的制造实践。总之，红硬度是决定材料在高温应用中表现的重要特性。它在各个行业中发挥着关键作用，影响着产品的功能和生产的经济性。随着技术的进步和对更具韧性材料的需求增加，红硬度的研究将继续成为材料科学中一个重要的研究和发展领域。