fusing point
简明释义
熔点
英英释义
例句
1.The fusing point of glass is crucial for artists when creating stained glass windows.
玻璃的熔合点对艺术家在制作彩色玻璃窗时至关重要。
2.The fusing point of a material affects its behavior under high temperatures.
材料的熔合点影响其在高温下的表现。
3.Understanding the fusing point of metals helps engineers select appropriate materials for construction.
理解金属的熔合点可以帮助工程师选择适合建筑的材料。
4.The fusing point of the polymer determines its suitability for various applications in manufacturing.
聚合物的熔合点决定了它在制造中各种应用的适用性。
5.In cooking, knowing the fusing point of chocolate can help achieve the perfect texture.
在烹饪中,了解巧克力的熔合点可以帮助达到完美的质地。
作文
The concept of the fusing point is crucial in various fields, especially in science and engineering. The fusing point refers to the temperature at which a solid becomes a liquid. This phenomenon is not only limited to metals but also applies to various materials such as plastics, ceramics, and even ice. Understanding the fusing point can help in determining how materials behave under different conditions, which is essential for designing products that are both functional and durable.In metallurgy, for instance, knowing the fusing point of a metal is vital for processes like welding and casting. When two metal pieces are joined together, they must reach a temperature above their fusing point to ensure a strong bond. If the temperature is too low, the metals will not fuse properly, leading to weak joints that could fail under stress. Therefore, engineers must carefully calculate the fusing point to achieve optimal results.Similarly, in the field of materials science, the fusing point plays a significant role in the development of new materials. Researchers often experiment with different compounds to find a combination that has a desirable fusing point. For example, in creating new polymers, scientists may adjust the chemical structure to lower or raise the fusing point to suit specific applications. This ability to manipulate the fusing point allows for innovation in product design, leading to materials that can withstand extreme temperatures or pressures.Moreover, the fusing point is also relevant in everyday life. Consider cooking, where understanding the fusing point of ingredients can affect the outcome of a dish. For example, when making candy, the sugar must be heated to a specific fusing point to achieve the right texture and flavor. If the temperature is not accurate, the candy may turn out too hard or too soft. Thus, the fusing point is an essential factor that can determine the success of culinary endeavors.In conclusion, the fusing point is a fundamental concept that transcends various disciplines. Whether in engineering, materials science, or even cooking, understanding the fusing point enables professionals to make informed decisions that lead to successful outcomes. As technology continues to advance, the importance of accurately identifying and manipulating the fusing point will only grow, paving the way for innovative solutions across different industries.
“熔融点”这一概念在多个领域中都至关重要,尤其是在科学和工程领域。“熔融点”指的是固体变为液体的温度。这一现象不仅限于金属,还适用于各种材料,如塑料、陶瓷甚至冰。理解“熔融点”有助于确定材料在不同条件下的行为,这对于设计既功能性又耐用的产品至关重要。例如,在冶金学中,了解金属的“熔融点”对于焊接和铸造等工艺至关重要。当两块金属件连接在一起时,它们必须达到高于其“熔融点”的温度,以确保形成强大的结合。如果温度过低,金属将无法正确熔合,导致在应力下可能发生的弱接头。因此,工程师必须仔细计算“熔融点”,以实现最佳结果。同样,在材料科学领域,“熔融点”在新材料的开发中也起着重要作用。研究人员经常实验不同的化合物,以找到具有理想“熔融点”的组合。例如,在制造新聚合物时,科学家可能会调整化学结构,以降低或提高“熔融点”,以适应特定的应用。这种操控“熔融点”的能力使得产品设计中的创新成为可能,导致能够承受极端温度或压力的材料的出现。此外,“熔融点”在日常生活中也相关。例如,在烹饪中,理解食材的“熔融点”可以影响菜肴的结果。例如,在制作糖果时,糖必须加热到特定的“熔融点”,以达到正确的质地和风味。如果温度不准确,糖果可能会变得过硬或过软。因此,“熔融点”是决定烹饪成功的一个重要因素。总之,“熔融点”是一个基本概念,跨越了多个学科。无论是在工程、材料科学还是烹饪中,理解“熔融点”使专业人士能够做出明智的决策,导致成功的结果。随着技术的不断进步,准确识别和操控“熔融点”的重要性只会增加,为各个行业的创新解决方案铺平道路。
