filaments
简明释义
n. [植]花丝;细丝(filament 的复数);[电子]灯丝;电加热丝
英英释义
单词用法
纤维缠绕;灯丝绕阻;灯丝电源绕组 | |
长丝纱线 |
同义词
| 细丝 | 蜘蛛用细腻的丝绸编织了它的网。 | ||
| 线 | 这种面料由强韧的线制成,抗撕裂。 | ||
| 纤维 | 天然纤维常用于环保服装。 | ||
| 电线 | The electrical wires were carefully insulated to prevent short circuits. | 电线经过仔细绝缘,以防止短路。 |
反义词
| 块 | The bulk of the material is much heavier than the filaments. | 这种材料的块体比细丝重得多。 | |
| 质量 | The mass of the object was too great to be supported by thin filaments. | 物体的质量太大,无法由细丝支撑。 |
例句
1.Braided, serpentine filaments of glowing gas suggest this nebula's popular name, The Medusa nebula.
象辫子一样层层卷绕的发光丝状气体暗示了这个星云的俗名:水母(美杜萨)星云。
2.In addition to phragmosome formation, preprophase is characterized by the formation of a ring of microtubules and actin filaments.
除了组块形成外,前期还以微管环和肌动蛋白丝的形成为特征。
3.Heating filaments in water causes bubbles to form, so turning the power up too much stops them working.
加热的细丝会使水中产生气泡,所以当功率过大时产生的气泡干扰就会使传感器无法工作。
4.Others deposit thin filaments of polymer in order to build structures up.
其他打印机则铺洒稀薄的聚合丝来加强结构。
5.What are those strange filaments?
这些奇怪的丝状物是什么?
6.These simple structures go way back; even pterodactyls had filaments of sorts.
这些简单的结构可以往上追溯;甚至连翼手龙(pterodactyls)也长有结构简单的纤维。
7.Eventually, Edison's lab tested carbonized filaments made from plants as diverse as baywood, boxwood, hickory, cedar, flax and bamboo.
最终,爱迪生的实验室测试了取材于不同植物的炭化灯丝,有月桂,黄杨木,胡桃木,雪松,亚麻和竹子。
8.In 3D printing, the printer uses plastic filaments to create objects layer by layer.
在3D打印中,打印机使用塑料线材逐层创建物体。
9.The filaments in a spider's web are incredibly strong and can withstand great tension.
蜘蛛网中的丝线非常坚韧,可以承受巨大的张力。
10.Researchers are studying the filaments of neurons to understand how brain signals are transmitted.
研究人员正在研究神经元的纤维,以了解大脑信号是如何传递的。
11.Some species of jellyfish have long, trailing filaments that can sting their prey.
一些水母种类有长长的、拖曳的触丝,可以刺伤猎物。
12.The light bulb contains a thin wire of tungsten that serves as the main component, known as the filament.
灯泡中含有一根细的钨丝,作为主要组件,被称为灯丝。
作文
In the realm of science and technology, the term filaments (细丝) plays a crucial role in various fields, particularly in materials science and electrical engineering. Filaments are slender, thread-like structures that can be found in many natural and synthetic materials. They can vary in size, composition, and properties, making them versatile components in numerous applications. Understanding the significance of filaments (细丝) requires a closer examination of their functions and uses across different domains.One of the most common examples of filaments (细丝) is found in the world of textiles. In fabric production, filaments are the basic building blocks that form threads and yarns. Natural fibers such as silk and cotton consist of long filaments (细丝), which are spun together to create strong and durable fabrics. Synthetic fibers like nylon and polyester also utilize filaments (细丝) in their production processes. The properties of these filaments (细丝), including their strength, elasticity, and resistance to wear, directly influence the quality and performance of the final textile products.In addition to textiles, filaments (细丝) are essential in the field of electronics. For example, incandescent light bulbs use a tungsten filament (细丝) to produce light. When electricity passes through the tungsten filament (细丝), it heats up and emits light. This principle has been adapted in various lighting technologies, including halogen and LED bulbs, where filaments (细丝) may still play a role in certain designs. The efficiency and longevity of these light sources often depend on the characteristics of the filaments (细丝) used within them.Moreover, in the field of biology, filaments (细丝) can refer to the structures found within cells, such as actin and myosin filaments that are crucial for muscle contraction and cellular movement. These protein filaments (细丝) work together to enable various biological processes, showcasing the importance of filaments (细丝) beyond just physical materials. Their dynamic nature allows cells to adapt and respond to their environment, highlighting the intricate design of life at the microscopic level.Furthermore, advancements in nanotechnology have led to the development of new types of filaments (细丝) with unique properties. Researchers are creating nanoscale filaments (细丝) that can be used in drug delivery systems, sensors, and even energy storage devices. These innovative applications demonstrate how understanding and manipulating filaments (细丝) at a molecular level can lead to breakthroughs in health and technology.In conclusion, the term filaments (细丝) encompasses a wide range of structures that are fundamental to both natural and artificial systems. From their role in textiles and electronics to their importance in biological processes and cutting-edge technology, filaments (细丝) are integral to our understanding of the world around us. As we continue to explore and innovate, the study of filaments (细丝) will undoubtedly remain a key area of research, leading to new discoveries and applications that enhance our lives.
在科学和技术的领域中,术语filaments(细丝)在多个领域中扮演着重要角色,特别是在材料科学和电气工程中。Filaments(细丝)是细长的线状结构,可以在许多自然和合成材料中找到。它们的大小、成分和特性各不相同,使其成为众多应用中的多功能组件。要理解filaments(细丝)的重要性,需要更深入地研究它们在不同领域的功能和用途。Filaments(细丝)的一个常见例子可以在纺织品的世界中找到。在织物生产中,filaments(细丝)是形成线和纱线的基本构建块。天然纤维如丝绸和棉花由长filaments(细丝)组成,这些filaments(细丝)被纺织在一起,以创造出坚固耐用的面料。合成纤维如尼龙和聚酯也在其生产过程中利用filaments(细丝)。这些filaments(细丝)的特性,包括强度、弹性和耐磨性,直接影响最终纺织产品的质量和性能。除了纺织品,filaments(细丝)在电子领域也是必不可少的。例如,白炽灯泡使用钨filament(细丝)来产生光。当电流通过钨filament(细丝)时,它会加热并发出光。这一原理已被应用于各种照明技术,包括卤素灯和LED灯,其中filaments(细丝)在某些设计中仍可能发挥作用。这些光源的效率和寿命通常取决于其内部使用的filaments(细丝)的特性。此外,在生物学领域,filaments(细丝)可以指细胞内发现的结构,如肌动蛋白和肌球蛋白filaments(细丝),这些结构对肌肉收缩和细胞运动至关重要。这些蛋白质filaments(细丝)共同工作,使各种生物过程得以进行,展示了filaments(细丝)在物质材料之外的重要性。它们的动态特性使细胞能够适应并响应环境,突显了微观层面生命的复杂设计。此外,纳米技术的进步导致了新型filaments(细丝)的开发,这些filaments(细丝)具有独特的特性。研究人员正在创建纳米级filaments(细丝),可用于药物传递系统、传感器甚至能源存储设备。这些创新应用展示了理解和操纵filaments(细丝)在分子层面的重要性,可以带来健康和技术领域的突破。总之,术语filaments(细丝)涵盖了一系列结构,这些结构对于自然和人工系统至关重要。从它们在纺织品和电子产品中的作用,到它们在生物过程和尖端技术中的重要性,filaments(细丝)是我们理解周围世界的基础。随着我们继续探索和创新,对filaments(细丝)的研究无疑将保持在一个关键的研究领域,导致新的发现和应用,从而提升我们的生活。
