filamentary的音標(biāo)為[?f?l??m?nt?ri] ，基本翻譯為“絲狀的”，速記技巧為：諧音“飛來(lái)難提”。

Filamentary這個(gè)詞的英文詞源可以追溯到拉丁語(yǔ)的“filum”和“filamentum”，意為細(xì)絲或線。這個(gè)詞在英語(yǔ)中通常用來(lái)描述像細(xì)絲一樣的物質(zhì)，如纖維、絲狀物等。

變化形式：在詞形上，filamentary沒(méi)有明顯的變化形式，它始終保持其原始的形式。

相關(guān)單詞：

1. Fiber（纖維）：這個(gè)詞是由“fiber”和“filament”組成的合成詞，用來(lái)描述由許多細(xì)絲組成的物質(zhì)，如植物纖維、人造纖維等。

2. Filament（細(xì)絲）：這個(gè)詞直接來(lái)源于filamentary，用來(lái)描述像細(xì)絲一樣的物質(zhì)，如電燈泡中的燈絲。

3. Filamentous（細(xì)絲狀的）：這個(gè)詞是由形容詞“filament”加上后綴“ous”構(gòu)成的形容詞，用來(lái)描述像細(xì)絲一樣的物質(zhì)或物體。

4. Filament-like（似細(xì)絲的）：這個(gè)詞是由形容詞“filament-like”構(gòu)成的名詞，用來(lái)描述看起來(lái)像細(xì)絲的物質(zhì)或物體。

5. Fiber-optic（光纖的）：這個(gè)詞是由“fiber”和“optical”組成的合成詞，用來(lái)描述通過(guò)光纖傳輸信息的系統(tǒng)。

6. Fiber-reinforced（纖維增強(qiáng)的）：這個(gè)詞是由“fiber”和“reinforced”組成的合成詞，用來(lái)描述使用纖維增強(qiáng)材料的復(fù)合材料。

7. Filament-based（基于細(xì)絲的）：這個(gè)詞是由“based”和“filament”組成的合成詞，用來(lái)描述基于細(xì)絲的技術(shù)或系統(tǒng)。

8. Filament-spinning（細(xì)絲紡紗）：這個(gè)詞是由動(dòng)詞“spin”和“filament”組成的合成詞，用來(lái)描述使用細(xì)絲進(jìn)行紡紗的過(guò)程。

9. Filament-wound（細(xì)絲纏繞）：這個(gè)詞是由動(dòng)詞“wound”和“filament”組成的合成詞，用來(lái)描述使用細(xì)絲纏繞物體或材料的過(guò)程。

10. Filament-forming（形成細(xì)絲的）：這個(gè)詞是由動(dòng)詞“form”和“filament”組成的合成詞，用來(lái)描述能夠形成細(xì)絲的過(guò)程或技術(shù)。

常用短語(yǔ)：

1. filamentary flow

2. filamentary structure

3. filamentary current

4. filamentary material

5. filamentary current density

6. filamentary flow rate

7. filamentary flow field

例句：

1. The filamentary flow of molten metal could be observed through a microscope.

2. The filamentary structure of the material determines its mechanical properties.

3. The filamentary current density in the circuit varies with the load.

4. The filamentary material is used to produce high-quality products.

5. The filamentary flow field in the nozzle needs to be carefully designed.

6. The filamentary flow rate determines the production rate of the printer.

7. The filamentary behavior of polymers is crucial for their processing and properties.

英文小作文：

Filamentary behavior of polymers is essential for their processing and properties, as it determines how they behave when heated or stretched. When polymers are heated, they tend to flow together into a continuous strand, forming a filament that can be used for various purposes, such as in 3D printers or for producing fibers and films. The process of forming filaments is complex and requires precise control over the temperature, speed, and other parameters of the process. Understanding the behavior of polymers as filaments is crucial for developing new materials and processes that can have a significant impact on various industries, such as manufacturing, healthcare, and more.