semisolid

简明释义

英[ˌsemɪˈsɒlɪd]美[ˌsemɪˈsɑːlɪd]

adj. 半固体的

n. 半固体

半固态特质的

英英释义

单词用法

同义词

反义词

例句

1.The microstructure of magnesium alloy melt under different disturbed treatment in semisolid state was studied.

研究了镁合金熔体在半固态温度区间进行不同扰动处理后铸件的组织特征。

2.The results show that the magnetic density and the Lorentz force of semisolid slurry increased with the enhancement of current strength at the same current frequency;

结果表明：在相同频率下，半固态浆料内的磁感应强度、电磁力的大小随电流强度的增加呈线性增加的关系；

3.The preparation of hypoeutectic Al-Si alloy billets for semisolid forming by low temperature casting was studied .

研究了低温铸造法制备亚共晶铝硅合金半固态成形用坯料。

4.The working principles, control process and the characteristics of main mechanism of plastic bag thermo sealing robot for packaging semisolid margarine.

介绍了用于奶油包装的塑料袋热封机械手的工作原理、控制过程以及各机构的主要特点。

5.The article has described substance, theoretical basis and applied range of semisolid die forging, and it has introduced some applied examples.

叙述半固态模锻的实质、理论基础及应用范围，介绍了半固态模锻的应用举例。

6.METHODS in vitro methylcellulose semisolid culture was used for the evaluation of clonal formation of K562 cell line. Flow cytometer was used for detecting apoptosis.

方法体外甲基纤维素半固体培养观察各处理组k 562细胞的克隆形成，流式细胞仪评价细胞的凋亡状况。

7.The results show that the magnetic density and the Lorentz force of semisolid slurry increased with the enhancement of current strength at the same current frequency;

结果表明：在相同频率下，半固态浆料内的磁感应强度、电磁力的大小随电流强度的增加呈线性增加的关系；

8.Semisolid material such as the type precipitated by sewage treatment.

半固态的物质，如污水处理后沉淀下来的那种物质。

9.The defect of extrudate in the extrusion process in the form of melt fracture could only be evidenced in the semisolid state of PP melt.

在挤出过程中，以熔体破裂形式出现的挤出物的缺陷只有在PP熔体处于半固体状态时才能观察到。

10.The mixture turned into a semisolid after cooling, making it easier to mold.

混合物冷却后变成了半固体，这使得它更容易成型。

11.When mixed properly, the paint can become semisolid, allowing for better application.

当混合得当时，油漆可以变得半固体，便于更好的涂抹。

12.The gel-like substance is classified as semisolid, suitable for topical applications.

这种凝胶状物质被分类为半固体，适合外用。

13.In cooking, some sauces reach a semisolid consistency that enhances their flavor.

在烹饪中，一些酱汁达到半固体的稠度，可以增强其风味。

14.The cosmetic cream has a semisolid texture that makes it easy to apply on the skin.

这种化妆品乳霜具有半固体的质地，便于涂抹在皮肤上。

作文

In the world of science and engineering, materials can exist in various states, ranging from solid to liquid. One intriguing state that often comes up in discussions is that of a semisolid. A semisolid (半固态) material has properties that are between those of a solid and a liquid, making it particularly interesting for various applications. Understanding this state of matter can provide insights into both natural phenomena and engineered processes.For instance, when we think about food, many items we consume are not purely solid or liquid but fall into the category of semisolid (半固态). Consider yogurt or pudding; these foods maintain a shape when placed in a container but can still flow slightly under pressure. This unique characteristic allows them to be versatile in culinary applications, serving as both a solid and a liquid depending on how they are prepared or consumed.In the field of materials science, the behavior of semisolid (半固态) materials is critical for understanding how substances behave under different conditions. For example, certain metals can exist in a semisolid (半固态) state during the casting process, allowing them to be molded into complex shapes while retaining some structural integrity. This phenomenon is utilized in advanced manufacturing techniques, such as metal injection molding, where the semisolid (半固态) state allows for high precision and reduced waste.Moreover, the concept of semisolid (半固态) is also crucial in the field of pharmaceuticals. Many drugs are formulated as semisolid (半固态) gels or creams to enhance their absorption and effectiveness. The semisolid (半固态) nature of these formulations allows for controlled release of the active ingredients, ensuring that they are delivered effectively to the targeted area in the body. This is especially important in topical treatments, where the balance between solid and liquid properties can significantly impact the drug's performance.Additionally, in the context of environmental science, semisolid (半固态) materials can play a role in waste management. For instance, sludge produced from wastewater treatment plants often has a semisolid (半固态) consistency. Understanding how to handle and process these semisolid (半固态) wastes is essential for effective disposal and recycling strategies, which ultimately contribute to sustainable practices.The study of semisolid (半固态) materials is not limited to just one discipline; it spans across various fields including food science, engineering, medicine, and environmental science. By examining the properties and behaviors of semisolid (半固态) substances, researchers and professionals can innovate and improve products, processes, and solutions to real-world problems.In conclusion, the term semisolid (半固态) encompasses a fascinating range of materials that bridge the gap between solids and liquids. Its relevance in everyday life, industry, and science highlights the importance of understanding different states of matter. Whether we are enjoying a delicious dessert, developing new manufacturing techniques, or addressing environmental challenges, the concept of semisolid (半固态) plays a vital role in shaping our world.

在科学和工程的世界中，材料可以存在于不同的状态，从固体到液体。一个引人入胜的状态是半固态。半固态材料具有介于固体和液体之间的特性，使其在各种应用中尤为有趣。理解这种物质状态可以为自然现象和工程过程提供深入的见解。例如，当我们想到食物时，我们消费的许多物品并不是纯粹的固体或液体，而是属于半固态。考虑酸奶或布丁；这些食物在放入容器时保持形状，但在压力下仍然可以稍微流动。这种独特的特性使它们在烹饪应用中变得多才多艺，根据准备或消费方式可以作为固体和液体。在材料科学领域，半固态材料的行为对理解物质在不同条件下的表现至关重要。例如，某些金属在铸造过程中可以处于半固态状态，使它们在保持一定结构完整性的同时被模制成复杂形状。这一现象在先进制造技术中得到了应用，例如金属注射成型，其中半固态状态允许高精度和减少浪费。此外，半固态的概念在制药领域也至关重要。许多药物被配制为半固态凝胶或乳膏，以增强其吸收和有效性。这些配方的半固态特性允许有效成分的控制释放，确保它们有效地传递到身体的目标区域。这在局部治疗中尤其重要，因为固体和液体特性之间的平衡会显著影响药物的性能。此外，在环境科学的背景下，半固态材料在废物管理中也可以发挥作用。例如，污水处理厂产生的污泥通常具有半固态的一致性。理解如何处理和处理这些半固态废物对有效的处置和回收策略至关重要，最终有助于可持续实践。对半固态材料的研究并不限于一个学科；它跨越食品科学、工程、医学和环境科学等多个领域。通过检查半固态物质的属性和行为，研究人员和专业人员可以创新和改进产品、流程和解决现实问题的方案。总之，术语半固态涵盖了一系列迷人的材料，这些材料弥合了固体和液体之间的差距。它在日常生活、工业和科学中的相关性突显了理解不同物质状态的重要性。无论我们是在享用美味的甜点、开发新的制造技术还是应对环境挑战，半固态的概念在塑造我们的世界中发挥着至关重要的作用。