thixotropy
简明释义
n. (凝胶等所具有的)触变性;摇溶(现象)
英英释义
单词用法
触变性流体 | |
触变性行为 | |
表现出触变性 | |
测量触变性特性 |
同义词
反义词
| 流变性 | Rheopexy refers to materials that become more viscous under shear stress. | 流变性指的是在剪切应力下变得更加粘稠的材料。 | |
| 粘度 | 高粘度流体不表现出触变性行为。 |
例句
1.It has good rheology and thixotropy.
它有较好的流变性和触变性。
2.Viscoelasticity is related to some properties such as gel point, gel strength, yield stress and thixotropy.
粘弹性与胶凝温度、胶凝强度、屈服应力和触变性等参数有关。
3.The thickening agents used in hot-melt paste for fusible interlining should have higher thickening function, moderate contact thixotropy and filament dragging ability.
浆点粘合衬布用增稠剂应具有较高的增稠能力,适中的触变性,还应有一定的曳丝性。
4.The distributions of droplet diameters in various operating conditions are measured and the influence of thixotropy on breakage process and maximum stable drop diameter is analyzed.
实验研究对比了不同温度下原油-水分散体系的液滴分布及最大稳定粒径,分析了触变性对破碎过程及最大稳定粒径的影响。
5.The results showed that PAN/DMSO solution showed anti-thixotropy lower than thixotropy, which resulted from the mechanism of inborn and uninborn entanglements.
触变性和反触变性是由大分子天生缠结与非天生缠结机理所致;
6.Thoroughly explores the thixotropic fluid, also is the theory of MRF thixotropy evaluation methods for evaluation method, and detailed analysis and research.
深入探讨了液体的触变理论,同时也给出了磁流变液触变性的评价方法,并对评价方法进行详细的分析和研究。
7.The addition of stabilizer, surface-active agent and acetic acid is able to affect sol thixotropy.
稳定剂、表面活性剂以及醋酸都影响胶液的触变性;
8.In this paper the thixotropy model of ceramic slip is established by the use of structure principle method and it is tested by experiments.
本文运用结构原理法建立了陶瓷泥浆的触变模型,并通过实验对所建立的模型进行了验证。
9.The assuming of "tiny-sea effect" (microscope) leading to thixotropy (microscope) of nano-materials in organic medium was presented.
提出了纳米粒子在有机介质中,由微观的“微海效应”导致的宏观的触变性的设想。
10.The gel's thixotropy allows it to be applied smoothly and then set into a firm structure.
这种凝胶的触变性使其能够平滑地涂抹,然后固化成坚固的结构。
11.In the food industry, thixotropy is important for sauces that need to be pourable but thick enough to cling to food.
在食品行业中,触变性对需要可倒出但又足够粘附于食物的酱汁非常重要。
12.Many cosmetics utilize thixotropy to provide a smooth application that becomes thicker on the skin.
许多化妆品利用触变性提供光滑的涂抹体验,在皮肤上变得更稠。
13.Understanding thixotropy is crucial for engineers designing materials that need to change viscosity under stress.
理解触变性对于设计需要在压力下改变粘度的材料的工程师至关重要。
14.The paint exhibits thixotropy, allowing it to flow easily when stirred but become thicker when at rest.
这种油漆表现出触变性,在搅动时容易流动,但静止时会变得更稠。
作文
Thixotropy is a fascinating property of certain materials that allows them to behave like a solid under static conditions but flow like a liquid when subjected to shear stress. This unique characteristic is observed in various substances, including some clays, gels, and even certain biological fluids. Understanding thixotropy (触变性) can greatly enhance our knowledge of material science and its applications in everyday life.One of the most common examples of thixotropy (触变性) can be seen in ketchup. When you first open a bottle of ketchup, it appears thick and difficult to pour. However, when you shake the bottle or squeeze it, the ketchup flows easily. This is because the shear stress from shaking or squeezing disrupts the internal structure of the ketchup, allowing it to flow more freely. This property makes thixotropy (触变性) particularly useful in food products, where texture and ease of use are important factors.In the construction industry, thixotropy (触变性) plays a crucial role in the behavior of certain types of concrete and plaster. These materials need to maintain their shape when applied but should also be workable enough to spread easily when mixed or applied. By incorporating thixotropic additives, manufacturers can create a product that remains stable during application but can be easily manipulated when needed. This not only improves the quality of construction materials but also enhances the efficiency of the building process.Another interesting application of thixotropy (触变性) is found in the field of cosmetics. Many lotions and creams exhibit thixotropic behavior, allowing them to remain thick in the container while becoming more fluid upon application. This property ensures that the product stays on the skin without running off, providing a better user experience. The cosmetic industry often utilizes this property to create products that are easy to apply yet provide the desired thickness and consistency.In the realm of biology, thixotropy (触变性) is observed in synovial fluid, which lubricates joints in the human body. This fluid is thick and viscous when at rest but becomes more fluid when the joint is in motion. This behavior is essential for reducing friction and allowing for smooth movement of the joints. Understanding the thixotropic nature of synovial fluid can lead to better treatments for joint-related ailments and improve overall joint health.The study of thixotropy (触变性) extends beyond these examples, influencing various fields such as pharmaceuticals, ink production, and even oil drilling. In pharmaceuticals, thixotropic gels can be used as drug delivery systems, ensuring that medications are released slowly and steadily over time. In ink production, thixotropic properties can enhance the flow and application of inks, making them suitable for different printing techniques.In conclusion, thixotropy (触变性) is an intriguing property that has significant implications across multiple industries. From food products to construction materials, cosmetics, and biological fluids, understanding this property allows us to innovate and improve the functionality and usability of various materials. As we continue to explore the applications of thixotropy (触变性), we will undoubtedly discover new ways to harness its potential, leading to advancements in technology and improvements in our daily lives.
触变性是某些材料的一种迷人特性,使它们在静态条件下表现得像固体,但在施加剪切应力时又像液体一样流动。这种独特的特性在各种物质中都有观察到,包括一些粘土、凝胶,甚至某些生物液体。理解thixotropy(触变性)可以极大地增强我们对材料科学及其在日常生活中应用的知识。thixotropy(触变性)的一个最常见的例子可以在番茄酱中看到。当你第一次打开一瓶番茄酱时,它看起来很稠,难以倒出。然而,当你摇晃瓶子或挤压它时,番茄酱就会轻松流动。这是因为摇晃或挤压产生的剪切应力破坏了番茄酱的内部结构,使其能够更自由地流动。这种特性使得thixotropy(触变性)在食品产品中尤为有用,因为质地和易用性是重要的因素。在建筑行业中,thixotropy(触变性)在某些类型的混凝土和石膏的行为中发挥着至关重要的作用。这些材料在应用时需要保持其形状,但也应该足够可操作,以便在混合或应用时容易扩展。通过加入触变性添加剂,制造商可以创造出一种在应用过程中保持稳定但在需要时可以轻松操控的产品。这不仅提高了建筑材料的质量,还增强了建筑过程的效率。thixotropy(触变性)的另一个有趣应用可以在化妆品领域找到。许多乳液和面霜表现出触变性行为,使它们在容器中保持稠厚,而在涂抹时变得更加流动。这种特性确保产品在皮肤上保持不流失,从而提供更好的用户体验。化妆品行业常常利用这种特性来创造易于涂抹但提供所需厚度和一致性的产品。在生物学领域,thixotropy(触变性)在滑液中被观察到,该液体润滑人体关节。这种液体在静止时是稠厚和粘稠的,但在关节运动时变得更加流动。这种行为对于减少摩擦和允许关节顺畅移动至关重要。了解滑液的触变性特征可以导致更好的关节相关疾病治疗,并改善整体关节健康。thixotropy(触变性)的研究超越了这些例子,影响着制药、油墨生产,甚至石油钻探等多个领域。在制药方面,触变性凝胶可用作药物释放系统,确保药物缓慢而稳定地释放。在油墨生产中,触变性特性可以增强油墨的流动性和应用性,使其适合不同的印刷技术。总之,thixotropy(触变性)是一种引人入胜的特性,在多个行业中具有重要意义。从食品产品到建筑材料、化妆品和生物液体,了解这一特性使我们能够创新并改善各种材料的功能性和可用性。随着我们继续探索thixotropy(触变性)的应用,我们无疑会发现利用其潜力的新方法,从而推动技术进步和改善我们的日常生活。
