extensile

extensile的音标为[ɪkˈstenˈsaɪl] ，基本翻译为“可延展的”，速记技巧为：ext-en(s)-sile，表示可延伸的。

"extensile"这个词的词源可以追溯到拉丁语"extensus"（伸展的）和"ligare"（连接）。它的意思是能够伸展并连接的。

变化形式：在英语中，"extensile"是词形不变的。

相关单词：

"extendable"（可延伸的） - 这个词和"extensile"意思相近，都表示可以伸展的。

"elongate"（延长的） - 这个词也表示伸展，但更强调长度上的增加。

"contractile"（可收缩的） - 这是与"extensile"相反的词，表示可以收缩的。

"flexible"（灵活的） - 这个词表示可以弯曲或伸展的，但不限于伸展方向。

"stretched"（拉长的） - 这个词常用于描述物体被拉伸的状态。

"extend"（延伸） - 这个动词表示将某物从原位置延伸出去。

"contract"（收缩） - 这个动词表示将某物收回或缩短。

"contracture"（收缩） - 这个名词表示由于收缩导致的组织变形。

"stiffness"（僵硬） - 这个名词表示物体缺乏灵活性或无法伸展的状态。

以上这些单词都与"extensile"这个词有直接或间接的关系，描述了不同程度和方向的伸展或收缩。

常用短语：

1. extendable arms

2. extensible table

3. extensile structure

4. extensile material

5. extensile rubber

6. extensile material testing

7. extensile material processing

双语例句：

1. The table is an extensile structure that can be extended to accommodate more people.

这张桌子是一个可伸缩的结构，可以伸展以容纳更多的人。

2. The extensile material is used in various applications, such as automobile parts and building materials.

这种可伸展材料被应用于各种应用中，例如汽车零部件和建筑材料。

3. Extensile rubber is a type of rubber that can be stretched and then returns to its original shape when released.

可伸展橡胶是一种可以被拉伸并在释放后恢复其原始形状的橡胶类型。

4. Extensile material testing is an important process in ensuring the quality of the material for various applications.

可伸展材料的测试是确保各种应用材料质量的重要过程。

5. Extensile rubber is commonly used in automotive braking systems due to its unique properties.

由于其独特的性质，可伸展橡胶通常用于汽车制动系统中。

6. The extensile structure can be used to create a wide range of products, from furniture to toys.

可伸缩结构可用于制造各种产品，从家具到玩具。

7. The extensile material is a versatile material that can be used in various ways to create unique products.

可伸展材料是一种多功能的材料，可以通过各种方式使用来制造独特的产品。

英文小作文：

Title: Extensile Materials - The Future of Materials Science

Extensile materials are a new type of material that has the unique ability to stretch and return to its original shape. These materials are becoming increasingly popular in various industries due to their versatility and strength. From automobiles to building materials, toys to furniture, extensile materials are changing the way we create and use products.

One of the most exciting applications of extensile materials is their potential use in space exploration. These materials could be used to create structures that can withstand the extreme conditions of space, such as the weightlessness and radiation exposure. Additionally, extensile materials could be used to create spacecraft components that can withstand the wear and tear of travel through space.

In conclusion, extensile materials represent a new frontier in materials science and have the potential to revolutionize various industries. As we continue to explore new ways to use these materials, we will undoubtedly see more innovative products and applications emerge that will shape the future of our world.