cold crushing strength

简明释义

低温压碎强度

英英释义

例句

1.A higher cold crushing strength indicates better durability and resistance to mechanical stress in industrial applications.

更高的冷压强度表明在工业应用中具有更好的耐久性和抗机械应力能力。

2.Engineers often specify the required cold crushing strength for materials used in high-temperature environments.

工程师通常会指定在高温环境中使用的材料所需的冷压强度。

3.The laboratory tested the cold crushing strength of various refractory bricks to determine their suitability for furnace linings.

实验室测试了各种耐火砖的冷压强度以确定它们作为炉衬的适用性。

4.The manufacturer claims that their new ceramic product has a high cold crushing strength, which means it can withstand significant pressure without breaking.

制造商声称他们的新陶瓷产品具有高冷压强度，这意味着它可以在不破裂的情况下承受很大的压力。

5.In construction, materials with a high cold crushing strength are preferred for load-bearing applications.

在建筑中，具有高冷压强度的材料更适合用于承重应用。

作文

The term cold crushing strength refers to the ability of a material, particularly ceramics and refractory products, to withstand compressive forces without deforming or breaking at room temperature. This property is crucial in various industries, especially those dealing with materials that must endure high temperatures and mechanical stress. Understanding the cold crushing strength of a material can help engineers and manufacturers select the right components for their applications, ensuring safety and efficiency.In the manufacturing of ceramics, for example, the cold crushing strength is a key indicator of quality. High cold crushing strength means that the ceramic can withstand significant pressure without failing, which is essential for products like tiles, bricks, and other structural elements. When these materials are subjected to loads, they must maintain integrity to prevent collapse or damage. Therefore, measuring this strength becomes a vital part of the production process.Moreover, in the context of refractory materials, which are used in furnaces, kilns, and reactors, the cold crushing strength is an important factor in determining how well the material will perform under extreme conditions. Refractories must not only resist thermal shock but also maintain their shape and strength when exposed to high pressures. A low cold crushing strength could lead to catastrophic failures in industrial processes where high heat and pressure are common.Testing for cold crushing strength typically involves applying a compressive force to a sample until it fails. The maximum load that the material can withstand before breaking is recorded as its cold crushing strength. This measurement is often expressed in megapascals (MPa) and provides a quantitative basis for comparing different materials. Engineers can use this data to predict how materials will behave in real-world applications, thus making informed decisions about material selection.Additionally, the cold crushing strength can be influenced by several factors, including the composition of the material, the manufacturing process, and any post-processing treatments. For instance, adding certain additives or changing the firing temperature can enhance the strength of ceramics. Understanding these variables allows manufacturers to optimize their products for specific applications.In conclusion, the concept of cold crushing strength is fundamental in materials science, particularly in industries that rely on ceramics and refractories. By understanding and measuring this property, engineers and manufacturers can ensure that their products meet the necessary performance standards. This not only enhances the reliability of structures and systems but also contributes to the overall efficiency and safety of industrial operations. As technology advances, the importance of accurately measuring and improving cold crushing strength will continue to grow, driving innovation in material development and application.

“冷压强度”一词指的是一种材料，特别是陶瓷和耐火产品，在室温下承受压缩力而不变形或破裂的能力。这个特性在各个行业中都至关重要，尤其是在处理必须承受高温和机械应力的材料的行业中。理解材料的“冷压强度”可以帮助工程师和制造商为其应用选择合适的组件，从而确保安全性和效率。例如，在陶瓷制造中，“冷压强度”是质量的关键指标。高“冷压强度”意味着陶瓷能够承受显著的压力而不失效，这对于瓷砖、砖块和其他结构元素等产品至关重要。当这些材料受到负荷时，它们必须保持完整性，以防止坍塌或损坏。因此，测量这一强度成为生产过程中的重要部分。此外，在耐火材料的背景下，这些材料用于炉子、窑和反应器，“冷压强度”是决定材料在极端条件下表现如何的重要因素。耐火材料不仅必须抵抗热冲击，还必须在暴露于高压力时保持其形状和强度。低“冷压强度”可能导致在高热和高压常见的工业过程中发生灾难性故障。“冷压强度”的测试通常涉及对样品施加压缩力，直到它失败。材料在破裂之前能够承受的最大负载被记录为其“冷压强度”。这个测量通常以兆帕（MPa）表示，提供了比较不同材料的定量基础。工程师可以利用这些数据来预测材料在现实应用中的表现，从而做出关于材料选择的明智决策。此外，“冷压强度”可能受到多个因素的影响，包括材料的成分、制造过程以及任何后处理工艺。例如，添加某些添加剂或改变烧结温度可以增强陶瓷的强度。理解这些变量使制造商能够优化其产品以满足特定应用。总之，“冷压强度”这一概念在材料科学中是基础性的，特别是在依赖于陶瓷和耐火材料的行业中。通过理解和测量这一特性，工程师和制造商可以确保其产品符合必要的性能标准。这不仅增强了结构和系统的可靠性，还促进了工业操作的整体效率和安全性。随着技术的进步，准确测量和提高“冷压强度”的重要性将继续增长，推动材料开发和应用的创新。