suspensibility

简明释义

英[səspensɪˈbɪlɪti]美[səspensəˈbɪləti]

n. 悬而不决；可悬挂；可中止

英英释义

单词用法

同义词

反义词

例句

1.The mixture was then stirred for 90 seconds and transferred quantitatively to a suspensibility cylinder.

混合搅拌，然后为90秒和转移到定量悬浮缸。

2.Its chief suspensibility can be raised to 70% from 34%, because of using airstream comminution process instead of conventional Raymond mill, and selecting suitable adjuvants.

由于采用了气流粉碎技术，取代了传统的雷蒙机粉碎，并选用了合适了助剂，使农药可湿性粉剂的主要指标悬浮率由34%提高到70%以上。

3.The suspensibility to seed clothing agent in compound system of naphthalene sulfonate condensate and nonionic surfactant was studied.

研究了聚萘磺酸盐与非离子表面活性剂复配体系对种衣剂的悬浮性。

4.METHOD s Mixing the CMSNa and MCC in certain proportion as the basic formulation of the tablets, the appearance, disintegration, dissolution and the suspensibility were investigated.

方法将羧甲基淀粉钠、微晶纤微素按一定比例混合，作为片剂基本处方，以分散片的外观、崩解时限、体外溶出度及混悬性为指标进行处方筛选。

5.METHOD s Mixing the CMSNa and MCC in certain proportion as the basic formulation of the tablets, the appearance, disintegration, dissolution and the suspensibility were investigated.

方法将羧甲基淀粉钠、微晶纤微素按一定比例混合，作为片剂基本处方，以分散片的外观、崩解时限、体外溶出度及混悬性为指标进行处方筛选。

6.The engineer discussed the suspensibility of the bridge design, emphasizing its ability to support heavy loads.

工程师讨论了桥梁设计的悬挂能力，强调其能够支撑重载。

7.During the experiment, we measured the suspensibility of different liquids to determine their buoyancy.

在实验中，我们测量了不同液体的悬挂能力以确定它们的浮力。

8.The suspensibility of the new suspension system improved the vehicle's handling on rough terrain.

新悬挂系统的悬挂能力提高了车辆在崎岖地形上的操控性。

9.In physics class, we learned about the suspensibility of various materials and how they can be used in construction.

在物理课上，我们学习了各种材料的悬挂能力以及它们在建筑中的应用。

10.The artist's installation relied on the suspensibility of the materials to create a floating effect.

艺术家的装置依赖于材料的悬挂能力来创造漂浮效果。

作文

Suspensibility is a term that refers to the ability of a substance or object to be suspended in a medium. This concept can be particularly important in various scientific fields, including chemistry, physics, and engineering. To better understand the concept of suspensibility (悬浮性), let us explore its applications and significance in everyday life.In the world of chemistry, suspensibility (悬浮性) plays a crucial role in the formulation of solutions and mixtures. For instance, when we mix sand with water, the sand particles do not dissolve; instead, they remain suspended in the water for a certain period. This phenomenon is due to the suspensibility (悬浮性) of the sand particles, which allows them to stay afloat temporarily before settling at the bottom. Understanding this property is essential for chemists when creating new products, such as paints or medicines, where the proper distribution of particles is vital for effectiveness.Moreover, in the field of engineering, suspensibility (悬浮性) is a critical factor in designing structures and materials that can withstand various forces. For example, when engineers are developing bridges or buildings, they must consider how different materials will behave under stress and whether they can maintain their suspensibility (悬浮性) in adverse conditions, such as high winds or earthquakes. This understanding helps ensure the safety and longevity of these structures.Furthermore, suspensibility (悬浮性) also has implications in environmental science. When pollutants are released into bodies of water, their suspensibility (悬浮性) can determine how far they spread and how long they remain in the ecosystem. For instance, oil spills in oceans are a significant concern because the oil's suspensibility (悬浮性) allows it to float on the surface, affecting marine life and coastal environments. Scientists study the suspensibility (悬浮性) of different substances to develop effective cleanup strategies and mitigate environmental damage.In everyday life, we encounter suspensibility (悬浮性) in many forms. For example, salad dressings often separate into layers when left standing due to the varying suspensibility (悬浮性) of oil and vinegar. When we shake the bottle, we temporarily increase the suspensibility (悬浮性) of the ingredients, allowing them to mix and create a uniform dressing. This simple act illustrates how suspensibility (悬浮性) affects our daily routines and choices.In conclusion, the concept of suspensibility (悬浮性) is multifaceted and essential across various disciplines. From chemistry to engineering and environmental science, understanding how different substances interact and remain suspended in mediums can lead to better products, safer structures, and cleaner environments. Recognizing the importance of suspensibility (悬浮性) in our lives can enhance our appreciation for the science behind the world around us, encouraging us to think critically about the materials we use and their impact on our health and the environment.

悬浮性是一个术语，指的是一种物质或物体在介质中悬浮的能力。这个概念在化学、物理和工程等多个科学领域尤为重要。为了更好地理解suspensibility（悬浮性）的概念，让我们探讨一下它在日常生活中的应用和意义。在化学世界中，suspensibility（悬浮性）在溶液和混合物的配制中发挥着至关重要的作用。例如，当我们将沙子与水混合时，沙子颗粒并不会溶解；相反，它们暂时悬浮在水中。这种现象是由于沙子颗粒的suspensibility（悬浮性），使它们能够在沉到底部之前漂浮一段时间。理解这一特性对于化学家在创造新产品时至关重要，例如油漆或药品，其中颗粒的适当分布对有效性至关重要。此外，在工程领域，suspensibility（悬浮性）是设计能承受各种力量的结构和材料的关键因素。例如，当工程师开发桥梁或建筑物时，他们必须考虑不同材料在应力下的表现，以及它们在不利条件（如强风或地震）下是否能够保持其suspensibility（悬浮性）。这种理解有助于确保这些结构的安全性和耐久性。此外，suspensibility（悬浮性）在环境科学中也具有重要意义。当污染物释放到水体中时，它们的suspensibility（悬浮性）可以决定它们传播的距离和在生态系统中停留的时间。例如，海洋中的石油泄漏是一个重大问题，因为石油的suspensibility（悬浮性）使其能够漂浮在水面上，影响海洋生物和沿海环境。科学家研究不同物质的suspensibility（悬浮性），以制定有效的清理策略，减轻环境损害。在日常生活中，我们以多种形式遇到suspensibility（悬浮性）。例如，沙拉酱在静置时常常会分层，原因在于油和醋的suspensibility（悬浮性）不同。当我们摇晃瓶子时，我们暂时增加了成分的suspensibility（悬浮性），使它们混合并形成均匀的调味料。这一简单的行为说明了suspensibility（悬浮性）如何影响我们的日常生活和选择。总之，suspensibility（悬浮性）的概念是多方面的，并且在各个学科中都是至关重要的。从化学到工程再到环境科学，理解不同物质如何相互作用并在介质中保持悬浮，可以带来更好的产品、更安全的结构和更清洁的环境。认识到suspensibility（悬浮性）在我们生活中的重要性，可以增强我们对周围世界科学的欣赏，鼓励我们批判性地思考我们使用的材料及其对健康和环境的影响。