viscousness
简明释义
n. 黏质;有黏性
英英释义
The state of being thick, sticky, and semi-fluid in consistency, often resulting in resistance to flow. | 一种厚重、粘稠且半流体状态,通常导致流动时的阻力。 |
单词用法
高粘度 | |
低粘度 | |
粘度的测量 | |
液体的粘性 | |
粘度增加 | |
粘度与温度 |
同义词
| 粘度 | 液体的粘度影响其流速。 | ||
| 厚度 | The thickness of the sauce was perfect for coating the pasta. | 酱汁的厚度非常适合裹住意大利面。 | |
| 粘性 | 粘合剂的粘性确保了强力粘合。 | ||
| 密度 | 密度较高的液体往往更粘稠。 |
反义词
| 流动性 | The fluidity of water allows it to flow easily through pipes. | 水的流动性使其能够轻松地通过管道流动。 | |
| 液态性 | In finance, liquidity refers to how quickly an asset can be converted into cash. | 在金融中,流动性指的是资产转化为现金的速度。 |
例句
1.And some disadvantages of traditional paper-plastic adhesive have been solved, for example, the poor water resistance and first-viscousness at low temperature.
解决了传统复膜胶耐水性差和低温下的初粘性低的不足之处。
2.And some disadvantages of traditional paper-plastic adhesive have been solved, for example, the poor water resistance and first-viscousness at low temperature.
解决了传统复膜胶耐水性差和低温下的初粘性低的不足之处。
3.The viscousness of the oil changed with temperature, affecting its performance in machinery.
油的粘稠度随着温度的变化而变化,影响其在机械中的性能。
4.For this paint, a higher viscousness is preferred to prevent drips.
对于这种油漆,更高的粘稠度是首选,以防止滴落。
5.In laboratory tests, the viscousness of the fluid was measured to ensure it met industry standards.
在实验室测试中,流体的粘稠度被测量,以确保其符合行业标准。
6.The chef adjusted the recipe to achieve the right level of viscousness for the sauce.
厨师调整了配方,以达到酱汁所需的粘稠度。
7.The viscousness of honey makes it difficult to pour quickly.
蜂蜜的粘稠度使得它很难快速倒出。
作文
In the realm of science and engineering, the term viscousness refers to the property of a fluid that describes its resistance to flow. It is a crucial concept in understanding how different substances behave under various conditions. For instance, when we think about honey, we immediately recognize its thick and sticky nature. This characteristic can be attributed to its high viscousness (粘性), which makes it flow slowly compared to water. In contrast, water has a low viscousness (粘性), allowing it to flow freely and quickly. The importance of viscousness (粘性) extends beyond mere observation; it plays a significant role in numerous applications across various fields. In the automotive industry, for example, engineers must consider the viscousness (粘性) of motor oils. Oils with the right viscousness (粘性) ensure that engine parts are lubricated effectively, reducing friction and preventing wear and tear. If the oil is too viscous, it may not flow properly, leading to inadequate lubrication. Conversely, if it is not viscous enough, it could lead to excessive wear on the engine components. Therefore, finding the optimal viscousness (粘性) is critical for the longevity and efficiency of vehicles.Moreover, the viscousness (粘性) of fluids also affects processes in the food industry. When manufacturing products like sauces or dressings, food scientists must carefully adjust the viscousness (粘性) to achieve the desired texture and mouthfeel. A sauce that is too runny may not cling well to pasta, while one that is too thick might be difficult to pour. Thus, achieving the right viscousness (粘性) is essential for consumer satisfaction and product quality.In addition to practical applications, viscousness (粘性) is also an important factor in natural phenomena. For example, lava from a volcano exhibits a high viscousness (粘性), which influences how it flows and spreads across the landscape. The viscousness (粘性) of lava can determine the shape of the volcano and the extent of the lava flow during an eruption. Understanding these properties helps scientists predict volcanic behavior and assess potential hazards to surrounding communities.In summary, viscousness (粘性) is a vital concept that influences a wide range of fields, from engineering to food production and even natural sciences. By studying and understanding viscousness (粘性), we can make informed decisions that impact our daily lives and the world around us. Whether we are selecting the right motor oil, perfecting a recipe, or predicting geological events, the implications of viscousness (粘性) are far-reaching and significant. As we continue to explore and innovate, a deeper comprehension of this property will undoubtedly lead to advancements and improvements in various industries.
在科学和工程领域,术语viscousness(粘性)指的是流体的一种特性,描述其对流动的抵抗力。这是理解不同物质在各种条件下如何表现的关键概念。例如,当我们想到蜂蜜时,我们立即会意识到它的浓稠和粘性。这一特性可以归因于它的高viscousness(粘性),使其与水相比流动缓慢。相反,水的viscousness(粘性)较低,使其能够自由快速地流动。viscousness(粘性)的重要性不仅仅停留在观察层面;它在各个领域的众多应用中发挥着重要作用。例如,在汽车工业中,工程师必须考虑机油的viscousness(粘性)。具有适当viscousness(粘性)的油确保发动机部件得到有效润滑,减少摩擦,防止磨损。如果油太粘,可能无法正常流动,导致润滑不足。相反,如果油不够粘,则可能导致发动机部件过度磨损。因此,找到最佳的viscousness(粘性)对车辆的寿命和效率至关重要。此外,流体的viscousness(粘性)还影响食品工业中的过程。例如,在制造酱料或调味品时,食品科学家必须仔细调整viscousness(粘性),以达到所需的质地和口感。过于稀薄的酱料可能无法很好地附着在意大利面上,而过于浓稠的酱料可能难以倒出。因此,实现正确的viscousness(粘性)对消费者满意度和产品质量至关重要。除了实际应用,viscousness(粘性)还是自然现象中的一个重要因素。例如,火山喷发的熔岩表现出高viscousness(粘性),这影响其流动和在地形上的扩散。熔岩的viscousness(粘性)可以决定火山的形状以及喷发期间熔岩流动的范围。理解这些特性有助于科学家预测火山行为并评估对周围社区的潜在危害。总之,viscousness(粘性)是一个重要的概念,影响着从工程到食品生产甚至自然科学的广泛领域。通过研究和理解viscousness(粘性),我们可以做出影响日常生活和周围世界的明智决策。无论我们是在选择合适的机油、完善食谱,还是预测地质事件,viscousness(粘性)的影响都是深远而重要的。随着我们继续探索和创新,对这一特性的更深入理解无疑将推动各行业的进步和改善。
