suspensoid

简明释义

[səˈspensɔɪd][səˈspensɔɪd]

n. 悬胶

英英释义

A suspensoid is a colloidal system in which solid particles are dispersed in a liquid medium, often exhibiting properties of both a suspension and a solution.

悬浮体是一种胶体系统,其中固体颗粒分散在液体介质中,通常表现出悬浮液和溶液的特性。

单词用法

suspensoid system

悬浮体系统

suspensoid medium

悬浮介质

stabilize the suspensoid

稳定悬浮体

analyze the suspensoid properties

分析悬浮体特性

同义词

suspension

悬浮

The suspension of particles in a liquid can lead to various applications in chemistry.

液体中颗粒的悬浮可以在化学中导致各种应用。

colloid

胶体

Colloids are important in many industries, including food and pharmaceuticals.

胶体在许多行业中都很重要,包括食品和制药。

emulsion

乳液

An emulsion is a mixture of two immiscible liquids, often stabilized by an emulsifier.

乳液是两种不相容液体的混合物,通常由乳化剂稳定。

反义词

sediment

沉淀物

The sediment settled at the bottom of the container.

沉淀物在容器底部沉降。

solution

溶液

The solution was clear and homogeneous.

溶液是清澈且均匀的。

例句

1.The grouting pressure formed by cement type suspensoid is greater than that by high molecular chemical slurry.

水泥类悬浊液浆液形成的灌浆压力大于高分子化学浆液形成的灌浆压力;

2.The grouting pressure formed by cement type suspensoid is greater than that by high molecular chemical slurry.

水泥类悬浊液浆液形成的灌浆压力大于高分子化学浆液形成的灌浆压力;

3.The properties of a suspensoid can change depending on temperature and pressure.

一个悬浮体的性质可以根据温度和压力的变化而改变。

4.During the experiment, the suspensoid settled at the bottom of the container.

在实验过程中,悬浮体沉淀在容器底部。

5.The scientist prepared a suspensoid to observe the behavior of particles in a liquid medium.

科学家准备了一个悬浮体以观察粒子在液体介质中的行为。

6.The suspensoid was stable enough to be used in various industrial applications.

悬浮体足够稳定,可以用于各种工业应用。

7.In pharmaceuticals, a suspensoid is often used to deliver active ingredients effectively.

在制药行业,悬浮体常用于有效传递活性成分。

作文

In the realm of chemistry and material science, the term suspensoid refers to a type of colloidal system where solid particles are dispersed in a liquid medium. This phenomenon is crucial for understanding various processes and applications across different fields, including pharmaceuticals, food technology, and environmental science. A suspensoid can be described as a heterogeneous mixture, meaning that the components are not uniformly distributed. The solid particles within a suspensoid can vary in size, shape, and composition, which can significantly influence the properties of the mixture.One of the most common examples of a suspensoid is muddy water. When soil particles are mixed with water, they do not dissolve; instead, they remain suspended, creating a cloudy appearance. This visual characteristic is a direct result of the interactions between the solid particles and the liquid medium. The stability of a suspensoid can be affected by several factors, including the size of the particles, the viscosity of the liquid, and the presence of stabilizing agents such as surfactants.Understanding suspensoids is essential in the formulation of medications. Many drugs are delivered in liquid forms, where active ingredients are suspended in a solvent. For instance, certain antibiotics are formulated as suspensions to ensure that patients receive the correct dosage while maintaining the stability of the medication. In this context, the suspensoid must be carefully engineered to prevent sedimentation, ensuring that the drug remains evenly distributed throughout the solution.In the food industry, suspensoids play a vital role in the texture and consistency of many products. For example, salad dressings often contain suspended particles of herbs and spices, which contribute to their flavor and visual appeal. The ability to maintain these particles in suspension without them settling at the bottom of the container is a challenge that food scientists continuously address. Emulsifiers and stabilizers are commonly used to create stable suspensoids in food products, enhancing their shelf life and consumer acceptance.Environmental science also benefits from the study of suspensoids. Water treatment processes often involve the removal of suspended solids from water sources to ensure safe drinking water. Understanding how suspensoids behave in natural water systems helps engineers design effective filtration and purification systems. Moreover, the presence of suspensoids in rivers and lakes can impact aquatic ecosystems, influencing everything from light penetration to the health of fish populations.In conclusion, the concept of a suspensoid is integral to various scientific disciplines and practical applications. By recognizing the significance of suspensoids, we can better appreciate the complexity of mixtures in our everyday lives, from the medications we take to the foods we consume and the water we drink. As research continues to advance, the understanding of suspensoids will undoubtedly lead to innovative solutions and improvements in numerous industries, highlighting the importance of this fascinating colloidal system.

在化学和材料科学领域,术语suspensoid指的是一种胶体系统,其中固体颗粒分散在液体介质中。这种现象对于理解各个领域的各种过程和应用至关重要,包括制药、食品技术和环境科学。suspensoid可以被描述为一种非均匀混合物,这意味着其组成不均匀分布。suspensoid中的固体颗粒可以在大小、形状和成分上有所不同,这可能会显著影响混合物的性质。suspensoid最常见的例子之一是泥水。当土壤颗粒与水混合时,它们并不溶解;相反,它们保持悬浮,创造出浑浊的外观。这种视觉特征直接源于固体颗粒与液体介质之间的相互作用。suspensoid的稳定性可能受到多个因素的影响,包括颗粒的大小、液体的粘度,以及诸如表面活性剂等稳定剂的存在。理解suspensoid对于药物的配方至关重要。许多药物以液体形式输送,其中活性成分悬浮在溶剂中。例如,某些抗生素被配制为悬浮液,以确保患者获得正确的剂量,同时保持药物的稳定性。在这种情况下,suspensoid必须经过精心设计,以防止沉淀,确保药物在溶液中均匀分布。在食品工业中,suspensoid在许多产品的质地和一致性中发挥着至关重要的作用。例如,沙拉酱通常含有悬浮的草药和香料颗粒,这些颗粒有助于其风味和视觉吸引力。保持这些颗粒悬浮而不沉淀到底部是食品科学家不断解决的挑战。乳化剂和稳定剂通常用于在食品产品中创建稳定的suspensoid,以增强其保质期和消费者接受度。环境科学也从对suspensoid的研究中受益。水处理过程通常涉及从水源中去除悬浮固体,以确保安全饮用水。了解suspensoid在自然水系统中的行为有助于工程师设计有效的过滤和净化系统。此外,河流和湖泊中suspensoid的存在可能会影响水生生态系统,影响从光透过率到鱼类种群健康的方方面面。总之,suspensoid的概念是多个科学学科和实际应用的核心。通过认识到suspensoid的重要性,我们可以更好地欣赏我们日常生活中混合物的复杂性,从我们服用的药物到我们消费的食品和饮用的水。随着研究的持续推进,对suspensoid的理解无疑将导致各个行业的创新解决方案和改进,突显了这一迷人胶体系统的重要性。