filling temperature

简明释义

灌注温度

英英释义

例句

1.The filling temperature must be monitored closely to prevent defects in the final product.

必须密切监测填充温度以防止最终产品出现缺陷。

2.For this specific application, the recommended filling temperature is between 150 and 180 degrees Celsius.

对于这个特定应用，推荐的填充温度在150到180摄氏度之间。

3.The filling temperature of the molten metal is crucial for ensuring a smooth casting process.

熔融金属的填充温度对于确保铸造过程顺利进行至关重要。

4.During the experiment, we measured the filling temperature to determine the optimal conditions for polymerization.

在实验中，我们测量了填充温度以确定聚合的最佳条件。

5.Adjusting the filling temperature can significantly affect the viscosity of the liquid material.

调整填充温度可以显著影响液体材料的粘度。

作文

In the world of materials science and engineering, understanding the various properties of substances is crucial for innovation and application. One such important property is the filling temperature, which refers to the temperature at which a material can be effectively poured or injected into a mold without losing its desired characteristics. This concept is particularly significant in industries such as plastics, metal casting, and pharmaceuticals, where precise measurements and conditions are necessary for optimal product quality.When we discuss the filling temperature of a material, we often consider its viscosity and flow characteristics. At higher temperatures, many materials become less viscous, allowing them to flow more easily into intricate mold designs. For example, in the production of plastic components, manufacturers must carefully monitor the filling temperature to ensure that the molten plastic fills the mold completely before it begins to cool and solidify. If the temperature is too low, the plastic may not fill the mold adequately, leading to defects in the final product.Moreover, the filling temperature can also influence the mechanical properties of the finished product. Materials that are allowed to cool too quickly may develop internal stresses or weak points, which can compromise their strength and durability. Therefore, engineers often conduct experiments to determine the optimal filling temperature for each specific material they work with, taking into account factors such as cooling rates and environmental conditions.In metal casting, the filling temperature plays an equally critical role. Molten metal must be poured into molds at a temperature that allows it to flow freely while ensuring that it solidifies correctly to form the desired shape. If the filling temperature is too low, the metal may not fill the mold properly, resulting in incomplete castings or defects. Conversely, if the temperature is excessively high, the metal may react with the mold material or lose its desirable properties upon cooling.The pharmaceutical industry also relies on the concept of filling temperature when manufacturing capsules or other dosage forms. The active ingredients often need to be suspended in a liquid carrier that must be heated to a specific filling temperature to ensure proper mixing and consistency. If the temperature is not controlled accurately, it could lead to variations in dosage or efficacy, ultimately affecting patient safety and treatment outcomes.In conclusion, the filling temperature is a fundamental parameter in various fields of engineering and manufacturing. By understanding and controlling this temperature, professionals can ensure that materials perform as expected, leading to high-quality products. Whether it is in plastics, metals, or pharmaceuticals, the significance of the filling temperature cannot be understated. It is a key factor that influences product integrity, performance, and overall success in industrial applications.

在材料科学和工程的世界中，理解物质的各种属性对于创新和应用至关重要。其中一个重要属性是填充温度，它指的是材料在不失去其所需特性的情况下，可以有效地倒入或注入模具的温度。这个概念在塑料、铸造金属和制药等行业中尤为重要，在这些行业中，精确的测量和条件对于最佳产品质量是必要的。当我们讨论材料的填充温度时，通常会考虑其粘度和流动特性。在较高温度下，许多材料变得粘度较低，使它们更容易流入复杂的模具设计中。例如，在塑料组件的生产中，制造商必须仔细监控填充温度，以确保熔融塑料在开始冷却和固化之前完全填充模具。如果温度过低，塑料可能无法充分填充模具，导致最终产品出现缺陷。此外，填充温度还会影响成品的机械性能。允许材料过快冷却可能会导致内部应力或弱点，从而损害其强度和耐久性。因此，工程师通常会进行实验，以确定他们所处理的每种特定材料的最佳填充温度，考虑到冷却速率和环境条件等因素。在金属铸造中，填充温度同样发挥着关键作用。熔融金属必须在允许其自由流动的温度下倒入模具，同时确保其正确固化以形成所需形状。如果填充温度过低，金属可能无法正确填充模具，导致铸件不完整或出现缺陷。相反，如果温度过高，金属可能会与模具材料发生反应或在冷却时失去其理想特性。制药行业在制造胶囊或其他剂型时也依赖于填充温度的概念。活性成分通常需要悬浮在液体载体中，该载体必须加热到特定的填充温度以确保适当混合和一致性。如果温度未能准确控制，可能导致剂量或效力的变化，最终影响患者安全和治疗结果。总之，填充温度是各个工程和制造领域中的一个基本参数。通过理解和控制这一温度，专业人员可以确保材料按预期表现，从而导致高质量的产品。无论是在塑料、金属还是制药领域，填充温度的重要性都不容小觑。它是影响产品完整性、性能和工业应用整体成功的关键因素。