slimes

简明释义

[slaɪmz][slaɪmz]

n. 煤泥(slime 的复数)

v. 涂上泥(slime 的三单形式)

英英释义

Slimes are viscous, slippery substances that can be produced by various organisms, often consisting of a mixture of water and organic materials.

粘液是由各种生物产生的黏稠、滑腻的物质,通常由水和有机材料的混合物组成。

In a more casual context, 'slimes' can refer to playful, gooey toys or substances that are often used for sensory play.

在更随意的语境中,'slimes'可以指代用于感官游戏的玩具或物质,通常是黏糊糊的。

单词用法

anode slime

阳极泥;阳极残渣;阳极沉积层

slime water

泥浆水

同义词

mucus

粘液

The mucus in your nose helps trap dust and bacteria.

你鼻子里的粘液有助于捕捉灰尘和细菌。

goo

黏稠物

The goo on the floor made it hard to walk.

地板上的黏稠物让人很难走动。

sludge

污泥

The sludge at the bottom of the tank needs to be cleaned out.

水箱底部的污泥需要清理。

gel

凝胶

She applied a gel to her hair for styling.

她在头发上涂抹了凝胶以便造型。

反义词

solid

固体

The clay is a solid material that can be easily molded.

这块粘土是一种可以轻松塑形的固体材料。

clean

干净

The room was clean and free of any mess.

这个房间干净整洁,没有任何杂物。

例句

1.Fixed bug where some hunter slimes could sometimes appear in an inactive state. We thought they were sleeping because cats tend to do that.

修正了一些猎人泥有时会出现在非激活状态。我们认为他们在睡觉,因为猫倾向于这样做。

2.Formation and accumulation of slimes and deposits are the major reasons inducing paper quality problems such as dirty spots, broken holes, and even cause the broken of paper in AKD sizing system.

烷基烯酮二聚体(akd)的中(碱)性施胶系统中,腐浆及沉积物的产生和积累是产生纸张脏点、破洞,甚至引起断头等质量问题的主要原因。

3.The influence of slimes on flotation process, action mechanism of sodium sulphide and amine flotation mechanism are also discussed in the light of testing results.

文中还结合试验结果对浮选过程中有关矿泥的影响、硫化钠的作用及胺法浮选工艺的实质作了讨论。

4.MRT can also be applied for the refining of slimes containing precious metals.

MRT也可以用于精炼含贵金属的阳极泥。

5.Category II: liquid ink in pens and similar materials in liquid form appearing as such in the toy (e. g. glue sticks, slimes, bubble solution).

II类材料:在玩具上呈固态或液态的类似材料(例如胶水、粘液、泡泡水)。

6.Slimes are able to merge with the creep to regenerate health and sneak away undetected.

软泥怪能够通过吞噬蔓延物来回复生命值,也能以潜行的方式悄悄离开。

7.In accordance with some wolfram tin effuse come from cleaner in a concentrating mill, this study adopt vibrated slimes shaking table combining with centrifugal separator to put up a roughers.

针对某选厂废弃的钨锡精选溢流进行了选矿试验研究 ,采用振动矿泥摇床与离心机组合粗选,运用重选-浮选 -磁选(水冶)联合工艺流程 ,有效地解决了钨锡细泥综合回收问题。

8.Formation and accumulation of slimes and deposits are the major reasons inducing paper quality problems such as dirty spots, broken holes, and even cause the broken of paper in AKD sizing system.

烷基烯酮二聚体(akd)的中(碱)性施胶系统中,腐浆及沉积物的产生和积累是产生纸张脏点、破洞,甚至引起断头等质量问题的主要原因。

9.Strange slimes, those puddles.

奇怪的泥水坑,那些。

10.She made her own slimes using glue and baking soda.

她用胶水和小苏打做了自己的史莱姆

11.After the rain, the garden was covered in slippery slimes.

雨后,花园里覆盖着滑腻的粘液

12.The children love to play with colorful slimes.

孩子们喜欢玩五颜六色的史莱姆

13.Some animals secrete slimes for protection.

一些动物分泌粘液以保护自己。

14.The science experiment involved mixing different colors of slimes.

这个科学实验涉及混合不同颜色的史莱姆

作文

In the world of science and nature, there are many fascinating substances that capture our attention. One such substance is known as slimes, which can be defined as a viscous, gelatinous material often produced by various organisms. These slimes play crucial roles in ecosystems, serving functions that range from protection to nutrient absorption. Understanding slimes not only broadens our knowledge of biology but also reveals their importance in our daily lives.The term slimes typically refers to the slimy secretions found in many creatures, including snails, slugs, and certain types of fish. This gooey substance is primarily composed of water, proteins, and polysaccharides, giving it its characteristic texture. For instance, the slimes produced by snails serve multiple purposes: they help the snail glide smoothly over surfaces, protect against dehydration, and provide a barrier against predators. This multifunctionality highlights the evolutionary advantages that slimes confer upon these organisms.In addition to their biological significance, slimes have captured the imagination of children and adults alike in recent years, particularly with the rise of DIY slime-making kits. These kits often contain simple ingredients like glue, borax, and food coloring, allowing anyone to create their own slimes at home. The tactile sensation of manipulating slimes has become a popular sensory activity for many, providing stress relief and a creative outlet. The phenomenon of homemade slimes has even spawned a vast online community where enthusiasts share recipes, tips, and tricks.Moreover, the study of slimes extends beyond mere fun and games; it has practical applications in various fields. For example, researchers are investigating the potential of slimes in medicine. Some studies suggest that the unique properties of slimes could lead to the development of new biomaterials for wound healing or drug delivery systems. The ability of certain slimes to retain moisture and form protective barriers makes them ideal candidates for such applications.Environmental scientists are also interested in slimes due to their role in soil health. Soil microbes produce slimes that help bind soil particles together, improving soil structure and fertility. This process enhances water retention and supports plant growth, making slimes an essential component of healthy ecosystems. By studying these microbial slimes, scientists can develop sustainable agricultural practices that promote soil health and reduce erosion.In conclusion, slimes are much more than just a gooey substance; they are vital components of many biological processes and ecosystems. From their role in protecting and aiding organisms to their applications in science and recreation, slimes demonstrate the intricate connections between nature and human innovation. As we continue to explore the wonders of slimes, we gain a deeper appreciation for the complexity of life and the potential that lies within these seemingly simple substances. Whether you encounter slimes in nature or in your crafting projects, remember that they hold a wealth of knowledge and possibilities waiting to be discovered.

在科学和自然的世界中,有许多迷人的物质吸引着我们的注意。其中一种物质被称为粘液,可以定义为由各种生物产生的粘稠、胶状材料。这些粘液在生态系统中发挥着至关重要的作用,功能范围从保护到营养吸收。理解粘液不仅拓宽了我们对生物学的知识,还揭示了它们在我们日常生活中的重要性。术语粘液通常指的是许多生物体内发现的黏滑分泌物,包括蜗牛、蛞蝓和某些类型的鱼。这种粘稠物质主要由水、蛋白质和多糖组成,使其具有特征性的质地。例如,蜗牛产生的粘液有多种用途:它们帮助蜗牛在表面上平滑滑动,防止脱水,并提供对捕食者的屏障。这种多功能性突显了粘液赋予这些生物的进化优势。除了生物学意义外,近年来粘液还吸引了儿童和成人的想象力,特别是DIY粘液制作套件的兴起。这些套件通常包含简单的成分,如胶水、硼砂和食用色素,让任何人都可以在家中制作自己的粘液。操控粘液的触觉感受已成为许多人流行的感官活动,提供压力缓解和创造性的出口。自制粘液的现象甚至催生了一个庞大的在线社区,爱好者们分享食谱、技巧和窍门。此外,研究粘液的领域不仅仅限于娱乐,它在各个领域都有实际应用。例如,研究人员正在研究粘液在医学中的潜力。一些研究表明,某些粘液的独特性质可能导致新型生物材料的开发,用于伤口愈合或药物传递系统。某些粘液保持湿润和形成保护屏障的能力使其成为此类应用的理想候选者。环境科学家也对粘液感兴趣,因为它们在土壤健康中的作用。土壤微生物产生的粘液有助于将土壤颗粒结合在一起,改善土壤结构和肥力。这个过程增强了水分保持能力并支持植物生长,使粘液成为健康生态系统的重要组成部分。通过研究这些微生物粘液,科学家们可以开发促进土壤健康和减少侵蚀的可持续农业实践。总之,粘液不仅仅是一种黏稠物质;它们是许多生物过程和生态系统的重要组成部分。从保护和帮助生物的作用到科学和娱乐的应用,粘液展示了自然与人类创新之间的复杂联系。随着我们继续探索粘液的奇迹,我们对生命的复杂性和这些看似简单的物质中蕴藏的潜力有了更深的理解。无论你是在自然中还是在手工项目中遇到粘液,请记住,它们蕴藏着丰富的知识和等待被发现的可能性。