dilatable

简明释义

[daɪˈleɪtəb(ə)l][daɪˈleɪtəbl]

adj. 可膨胀的

英英释义

Capable of being dilated or expanded.

能够被扩张或膨胀的。

单词用法

dilatable tissue

可扩张的组织

dilatable structures

可扩张的结构

dilatable vessels

可扩张的血管

dilatable membranes

可扩张的膜

同义词

expandable

可扩展的

The material used in the design is highly expandable, allowing for various shapes.

设计中使用的材料具有很高的可扩展性,允许多种形状。

stretchable

可伸展的

This fabric is stretchable and can adapt to different body types.

这种面料是可伸展的,可以适应不同的体型。

flexible

灵活的

The flexible hose can be easily maneuvered in tight spaces.

这种灵活的软管可以轻松在狭小的空间中操作。

extendable

可延伸的

The extendable ladder makes it easier to reach high places.

可延伸的梯子使得到达高处变得更容易。

反义词

contractible

可收缩的

The muscle is contractible, allowing it to become smaller.

这块肌肉是可收缩的,允许它变得更小。

narrow

狭窄的

The road narrows ahead, making it difficult for two cars to pass.

前方道路变窄,使两辆车难以通过。

例句

1.To observe the clinical effect of dilatable bone nail on humerus shaft fracture.

探讨可膨胀自锁髓内钉治疗肱骨干骨折的临床疗效。

2.To observe the clinical effect of dilatable bone nail on humerus shaft fracture.

探讨可膨胀自锁髓内钉治疗肱骨干骨折的临床疗效。

3.In certain medical procedures, the dilatable 可扩张的 tubes can help facilitate access to organs.

在某些医疗程序中,dilatable 可扩张的 管道可以帮助便于接触器官。

4.The doctor explained that the blood vessels are dilatable 可扩张的 to regulate blood flow.

医生解释说,血管是dilatable 可扩张的,以调节血流。

5.During the experiment, we observed that the dilatable 可扩张的 balloon expanded when heated.

在实验中,我们观察到加热时dilatable 可扩张的 气球膨胀。

6.The engineer designed a dilatable 可扩张的 material that could withstand pressure changes.

工程师设计了一种dilatable 可扩张的 材料,能够承受压力变化。

7.The pharmacologist studied how dilatable 可扩张的 tissues respond to different medications.

药理学家研究了dilatable 可扩张的 组织如何对不同药物作出反应。

作文

The human body is an intricate machine, composed of various systems that work together to maintain life. One of the remarkable features of our physiology is the ability of certain structures to be dilatable (可扩张的). This term refers to the capacity of an organ or a vessel to expand or stretch in response to various stimuli, such as pressure or volume changes. Understanding the concept of dilatable structures is crucial for comprehending how our bodies function under different conditions.For instance, the blood vessels in our circulatory system are highly dilatable (可扩张的). When we exercise, our muscles require more oxygen and nutrients, leading to increased blood flow. To accommodate this demand, the blood vessels expand, allowing more blood to pass through. This process is known as vasodilation, and it is essential for maintaining optimal circulation and ensuring that our organs receive the necessary resources to function efficiently.Similarly, the lungs exhibit dilatable (可扩张的) properties during respiration. When we inhale, the diaphragm contracts, creating a vacuum that draws air into the lungs. The lung tissues stretch and expand, allowing for a greater volume of air to enter. This dilatable (可扩张的) feature is vital for effective gas exchange, enabling us to take in oxygen and expel carbon dioxide.In addition to the cardiovascular and respiratory systems, the digestive tract also contains dilatable (可扩张的) components. For example, the stomach can expand significantly after a meal to accommodate the incoming food. This ability to stretch is crucial for digestion, as it allows the stomach to hold and process larger quantities of food, facilitating the breakdown and absorption of nutrients.The concept of dilatable (可扩张的) structures extends beyond biology; it can also be applied to various fields such as engineering and materials science. For instance, certain materials are designed to be dilatable (可扩张的) to withstand changes in temperature or pressure. These materials can expand or contract without losing their structural integrity, making them ideal for applications where flexibility and adaptability are required.Moreover, understanding the dilatable (可扩张的) nature of materials can lead to innovations in technology. Engineers often seek to create devices that can respond to environmental changes, mimicking the dilatable (可扩张的) characteristics found in biological systems. This approach has led to advancements in robotics, where machines can adapt their form and function to navigate various terrains or tasks effectively.In conclusion, the term dilatable (可扩张的) encompasses a fundamental aspect of both biological and engineered systems. Whether referring to the expansion of blood vessels, lungs, or materials, the ability to stretch and adapt is essential for functionality and efficiency. By studying these dilatable (可扩张的) properties, we gain valuable insights into the workings of nature and the potential for innovation in technology. As we continue to explore the complexities of both organic and synthetic systems, the concept of dilatable (可扩张的) will undoubtedly play a significant role in shaping our understanding and advancements in various fields.

人体是一个复杂的机器,由各种系统组成,这些系统共同工作以维持生命。我们生理学的一个显著特征是某些结构能够dilatable(可扩张的)。这个术语指的是器官或血管在应对各种刺激时,如压力或体积变化,扩展或拉伸的能力。理解dilatable结构的概念对于理解我们的身体如何在不同条件下运作至关重要。例如,我们循环系统中的血管具有高度的dilatable(可扩张的)特性。当我们锻炼时,肌肉需要更多的氧气和营养物质,从而导致血流增加。为了适应这种需求,血管扩张,允许更多的血液通过。这个过程被称为血管扩张,它对于维持最佳循环以及确保我们的器官获得必要资源以高效运作至关重要。同样,肺部在呼吸过程中也表现出dilatable(可扩张的)特性。当我们吸气时,膈肌收缩,产生真空,将空气吸入肺中。肺组织伸展并扩展,允许更多的空气进入。这种dilatable(可扩张的)特性对于有效的气体交换至关重要,使我们能够吸入氧气并排出二氧化碳。除了心血管和呼吸系统外,消化道也包含dilatable(可扩张的)组件。例如,胃在进食后可以显著扩展以容纳进入的食物。这种伸展能力对于消化至关重要,因为它使胃能够容纳和处理更大数量的食物,促进营养的分解和吸收。dilatable(可扩张的)结构的概念不仅限于生物学;它也可以应用于工程和材料科学等各个领域。例如,某些材料被设计为dilatable(可扩张的),以承受温度或压力的变化。这些材料能够扩展或收缩而不失去其结构完整性,使其成为需要灵活性和适应性的应用的理想选择。此外,理解材料的dilatable(可扩张的)特性可以带来技术创新。工程师们常常寻求创造能够响应环境变化的设备,模仿生物系统中发现的dilatable(可扩张的)特性。这种方法促成了机器人技术的进步,使机器能够有效地适应各种地形或任务。总之,术语dilatable(可扩张的)涵盖了生物和工程系统的基本方面。无论是指血管、肺部还是材料的扩展能力,伸展和适应的能力对于功能性和效率至关重要。通过研究这些dilatable(可扩张的)特性,我们获得了对自然运作和技术创新潜力的宝贵见解。当我们继续探索有机和合成系统的复杂性时,dilatable(可扩张的)概念无疑将在塑造我们对各个领域的理解和进步中发挥重要作用。