solidification point

简明释义

凝固点

英英释义

例句

1.In the lab, we measured the solidification point of the compound to ensure it could be safely stored at room temperature.

在实验室中，我们测量了该化合物的固化点，以确保它可以安全地在室温下储存。

2.Different alloys have different solidification points, which affects their casting properties.

不同的合金有不同的固化点，这影响了它们的铸造性能。

3.Understanding the solidification point of liquids is essential for processes like freeze-drying.

了解液体的固化点对像冷冻干燥这样的过程至关重要。

4.The solidification point of paraffin wax determines how it can be used in candle making.

石蜡的固化点决定了它在制蜡烛中的使用方式。

5.The solidification point of this metal is crucial for determining its suitability in high-temperature applications.

这种金属的固化点对于确定其在高温应用中的适用性至关重要。

作文

The study of materials and their properties is a fascinating field that has significant implications for various industries. One crucial aspect of material science is understanding the behavior of substances as they transition between different states, particularly from liquid to solid. This transition occurs at a specific temperature known as the solidification point, which is defined as the temperature at which a liquid becomes a solid. Understanding the solidification point (固化点) of a material is essential for engineers and scientists as it affects how materials are processed and utilized in real-world applications.For instance, consider the process of casting metals. When molten metal is poured into a mold, it must cool down to its solidification point (固化点) to take on the desired shape. If the temperature is not carefully controlled, the metal may not solidify properly, leading to defects in the final product. Therefore, knowing the solidification point (固化点) allows manufacturers to optimize cooling rates and ensure the integrity of the casted item.Moreover, the solidification point (固化点) can vary among different substances. For example, water has a solidification point (固化点) of 0 degrees Celsius, while other materials like lead have a much higher solidification point (固化点) of around 327 degrees Celsius. This variation is critical when selecting materials for specific applications. In the construction industry, for instance, knowledge of the solidification point (固化点) helps engineers choose appropriate materials that will withstand environmental conditions without compromising structural integrity.In addition to industrial applications, the solidification point (固化点) also plays a role in everyday life. For example, when making ice cream, the mixture must be cooled below its solidification point (固化点) to achieve the desired creamy texture. If the mixture does not reach this temperature, it will remain a liquid and fail to form ice cream. This principle is not only applicable to ice cream but also to various culinary processes where the transformation of liquids into solids is desired.Furthermore, the concept of the solidification point (固化点) extends beyond just physical materials; it can also be applied metaphorically in various contexts. For instance, in personal development, one might refer to their solidification point (固化点) as a moment of clarity or realization when they finally commit to a decision or a change in their lives. Just as materials solidify at a specific temperature, individuals can reach a point where they solidify their beliefs, goals, or identities.In conclusion, the solidification point (固化点) is a fundamental concept in material science that influences numerous aspects of both industrial processes and daily life. By understanding this critical temperature, we can enhance our ability to manipulate materials effectively, ensuring quality and performance across various applications. Whether it is in manufacturing, cooking, or personal growth, recognizing the significance of the solidification point (固化点) can lead to better outcomes and a deeper understanding of the world around us.

材料及其特性的研究是一个迷人的领域，对各个行业具有重要意义。材料科学的一个关键方面是理解物质在不同状态之间转变时的行为，特别是从液体到固体的转变。这一转变发生在一个特定的温度下，称为固化点，定义为液体变为固体的温度。理解材料的固化点（solidification point）对工程师和科学家至关重要，因为它影响材料的加工和在实际应用中的使用。例如，考虑金属铸造的过程。当熔融金属倒入模具中时，必须冷却到其固化点（solidification point）以获得所需的形状。如果温度控制不当，金属可能无法正确固化，从而导致最终产品出现缺陷。因此，了解固化点（solidification point）使制造商能够优化冷却速率，确保铸件的完整性。此外，固化点（solidification point）在不同物质之间可能有所不同。例如，水的固化点（solidification point）为0摄氏度，而铅的固化点（solidification point）则高达约327摄氏度。这种变化在选择特定应用的材料时至关重要。在建筑行业中，了解固化点（solidification point）帮助工程师选择适合的材料，以承受环境条件而不影响结构完整性。除了工业应用外，固化点（solidification point）在日常生活中也起着作用。例如，在制作冰淇淋时，混合物必须冷却到低于其固化点（solidification point）的温度，以实现所需的奶油质地。如果混合物未达到此温度，它将保持液态，无法形成冰淇淋。这一原理不仅适用于冰淇淋，也适用于各种烹饪过程中希望液体转变为固体的情况。此外，固化点（solidification point）的概念不仅限于物理材料；它还可以在各种上下文中隐喻性地应用。例如，在个人发展中，人们可能会将他们的固化点（solidification point）称为一种清晰或领悟的时刻，当他们最终承诺于某个决定或生活中的改变时。正如材料在特定温度下固化一样，个人也可以达到一个点，在这个点上他们巩固自己的信念、目标或身份。总之，固化点（solidification point）是材料科学中的一个基本概念，影响着工业过程和日常生活的多个方面。通过理解这一关键温度，我们可以增强有效操控材料的能力，确保在各种应用中的质量和性能。无论是在制造、烹饪还是个人成长中，认识到固化点（solidification point）的重要性都能带来更好的结果和对周围世界的更深理解。