thixotropic suspension

简明释义

触变性悬液

英英释义

例句

1.In the field of cosmetics, many creams are formulated as a thixotropic suspension to ensure easy application.

在化妆品领域，许多面霜被配制为触变性悬浮液以确保易于涂抹。

2.The thixotropic suspension used in drilling fluids helps to stabilize the borehole.

用于钻井液的触变性悬浮液有助于稳定钻孔。

3.The paint we use is a thixotropic suspension, which means it becomes less viscous when stirred.

我们使用的油漆是一种触变性悬浮液，这意味着在搅拌时它会变得更稀。

4.The thixotropic suspension allows for better control during the application of adhesives.

这种触变性悬浮液使得在施加粘合剂时能够更好地控制。

5.When shaken, the thixotropic suspension in the ketchup becomes pourable.

当摇动时，番茄酱中的触变性悬浮液变得可倒出。

作文

Thixotropic materials are fascinating substances that exhibit a unique property: they become less viscous when subjected to shear stress. One of the most common examples of thixotropic materials is a thixotropic suspension, which refers to a mixture that can flow more easily when stirred or shaken, but returns to a more solid state when left undisturbed. This behavior is particularly useful in various industries, including food, cosmetics, and construction. In the food industry, for example, many sauces and dressings are formulated as thixotropic suspensions. When you pour a bottle of salad dressing, it flows smoothly onto your salad, making it easy to distribute. However, if left sitting on the shelf, the dressing thickens, preventing separation of the ingredients. This property ensures that consumers enjoy a consistent product while also extending its shelf life.Similarly, in the cosmetic industry, many creams and lotions utilize thixotropic suspensions to enhance their application properties. These products can be easily spread across the skin when rubbed, yet they maintain their shape and thickness when at rest. This allows for a pleasant user experience while ensuring that the product remains stable in its container.The construction industry also benefits from thixotropic suspensions. For instance, certain types of paints and coatings are designed to be thixotropic, allowing them to be applied smoothly with a brush or roller. Once applied, the paint thickens slightly, reducing the likelihood of drips and runs. This property is essential for achieving a high-quality finish on walls and other surfaces.Understanding the science behind thixotropic suspensions involves delving into the interactions between particles within a fluid. In a typical suspension, solid particles are dispersed in a liquid. When shear stress is applied, such as during stirring, the particles rearrange themselves, creating a temporary decrease in viscosity. Once the stress is removed, the particles revert to their original arrangement, increasing the viscosity once again. This reversible process is what makes thixotropic suspensions so versatile.Researchers continue to explore new applications for thixotropic suspensions. Innovations in material science are leading to the development of advanced formulations that can respond to different stimuli, such as temperature changes or electric fields. These smart materials could revolutionize industries by providing even greater control over the flow properties of liquids.In conclusion, thixotropic suspensions are an exciting area of study with practical implications across multiple sectors. Their ability to change viscosity in response to mechanical stress makes them valuable in everyday products, from food to cosmetics to construction materials. As research progresses, we may see even more innovative uses for these remarkable materials, enhancing our lives in ways we have yet to imagine.

触变材料是具有独特性质的迷人物质：在施加剪切应力时，它们的粘度会降低。最常见的触变材料之一是触变悬浮液，指的是一种混合物，在搅拌或摇动时能够更容易流动，但在静置时又会恢复到更固态的状态。这种行为在食品、化妆品和建筑等多个行业中尤其有用。例如，在食品行业中，许多酱汁和调味料被配制成触变悬浮液。当你倒出一瓶沙拉酱时，它会顺利地流到沙拉上，使其易于分布。然而，如果放置在货架上，调味料会变稠，防止成分分离。这种属性确保消费者享用一致的产品，同时延长了其保质期。同样，在化妆品行业，许多面霜和乳液利用触变悬浮液来增强其涂抹性能。这些产品在擦拭时可以轻松涂抹在皮肤上，但在静止时保持其形状和厚度。这不仅提供了愉悦的用户体验，还确保产品在其容器中保持稳定。建筑行业也受益于触变悬浮液。例如，某些类型的油漆和涂料被设计为触变性，使其能够顺利地用刷子或滚筒涂抹。一旦涂抹，油漆稍微变稠，减少了滴落和流淌的可能性。这种特性对于在墙壁和其他表面上实现高质量的涂层至关重要。理解触变悬浮液背后的科学涉及深入研究流体内颗粒之间的相互作用。在典型的悬浮液中，固体颗粒分散在液体中。当施加剪切应力时，例如在搅拌过程中，颗粒重新排列，导致粘度暂时降低。一旦去除应力，颗粒又恢复到原始排列，粘度再次增加。这种可逆过程使得触变悬浮液非常多功能。研究人员继续探索触变悬浮液的新应用。材料科学的创新正在推动先进配方的开发，这些配方可以对不同刺激做出响应，例如温度变化或电场。这些智能材料可能会通过提供对液体流动特性的更大控制来彻底改变各个行业。总之，触变悬浮液是一个令人兴奋的研究领域，在多个领域具有实际意义。它们在机械应力响应下改变粘度的能力使它们在日常产品中具有价值，从食品到化妆品再到建筑材料。随着研究的进展，我们可能会看到这些卓越材料的更多创新用途，以我们尚未想象的方式提升我们的生活。