retractility

简明释义

英[/rɪˈtræktɪlɪti/]美[/rɪˈtræktɪləti/]

n. 伸缩性

英英释义

单词用法

同义词

反义词

例句

1.It will not only boost up the system security and the service retractility, but also have anti-destroy character to improve the viability of TT&C system efficiently in war field.

集群技术应用于军事测控系统，不仅可以增强其系统可靠性、性能价格比和服务伸缩性，而且其抗摧毁特性能够有效提高军用测控系统的战场生存能力。

2.It will not only boost up the system security and the service retractility, but also have anti-destroy character to improve the viability of TT&C system efficiently in war field.

集群技术应用于军事测控系统，不仅可以增强其系统可靠性、性能价格比和服务伸缩性，而且其抗摧毁特性能够有效提高军用测控系统的战场生存能力。

3.The efficiency, stability, security and retractility of the system are improved with the application of MIDAS technique.

该项技术的应用，提高了系统的效率、稳定性、安全性和扩展性。

4.The retractility of the material was tested to ensure it could return to its original shape after deformation.

对材料的收缩性进行了测试，以确保其在变形后能够恢复到原始形状。

5.Understanding the retractility of the tendons can help in developing better rehabilitation programs for injuries.

了解肌腱的收缩性可以帮助制定更好的伤害康复计划。

6.The surgeon evaluated the retractility of the tissue during the operation to avoid unnecessary damage.

外科医生在手术过程中评估了组织的收缩性以避免不必要的损伤。

7.The study focused on the retractility of certain muscles, which refers to their ability to contract and shorten after being stretched.

这项研究集中于某些肌肉的收缩性，即它们在被拉伸后收缩和缩短的能力。

8.In robotics, the retractility of components is crucial for creating efficient and compact designs.

在机器人技术中，组件的收缩性对创造高效和紧凑的设计至关重要。

作文

In the realm of biology, the term retractility refers to the ability of certain organisms or structures to withdraw or pull back into their original position. This fascinating phenomenon can be observed in various species, showcasing how evolution has equipped them with unique adaptations for survival. For instance, the retractile claws of a cat allow it to retract its claws when not in use, providing both protection and increased agility. This retractility not only aids in hunting but also helps in climbing and navigating through complex environments. Moreover, retractility is not limited to animals alone; it can also be seen in plants. Some species of plants have developed mechanisms to retract their leaves or petals in response to environmental stimuli such as touch or changes in light. This adaptive behavior serves multiple purposes, including conserving water during dry conditions and protecting delicate reproductive structures from herbivores. The concept of retractility extends beyond the biological sciences into the fields of engineering and robotics. Engineers often draw inspiration from nature, designing machines that mimic the retractility observed in living organisms. For example, robotic arms with retractable components can perform intricate tasks while minimizing space requirements. This innovation allows for greater efficiency in manufacturing processes and has implications in various industries, including medicine and aerospace. Furthermore, understanding retractility can provide insights into the mechanics of movement and flexibility. In biomechanics, the study of how muscles and tendons work together to produce movement often highlights the importance of retraction. Muscles that exhibit retractility can contract and relax efficiently, enabling smooth and coordinated motions. This principle is crucial for athletes who rely on precise movements to excel in their respective sports. In conclusion, retractility is a multifaceted concept that plays a vital role in the natural world and human innovation. From the retractable claws of a feline predator to the advanced robotics inspired by these natural mechanisms, the ability to retract and adapt is essential for survival and efficiency. As we continue to explore the intricacies of retractility, we gain a deeper appreciation for the complexity of life and the ingenuity of human design.

在生物学领域，术语retractility指的是某些生物或结构收回或退回到其原始位置的能力。这种迷人的现象可以在各种物种中观察到，展示了进化如何赋予它们独特的适应能力以求生存。例如，猫的可收回爪子使其在不使用时可以收回爪子，从而提供保护并增加灵活性。这种retractility不仅有助于捕猎，还帮助攀爬和在复杂环境中导航。此外，retractility并不仅限于动物；在植物中也可以看到。有些植物物种发展出了在触摸或光照变化等环境刺激下收回叶子或花瓣的机制。这种适应性行为有多重目的，包括在干旱条件下节约水分，并保护娇嫩的生殖结构免受食草动物的侵害。retractility的概念超越了生物科学，进入了工程和机器人领域。工程师常常从自然中汲取灵感，设计模仿生物中观察到的retractility的机器。例如，具有可收回部件的机器人手臂可以执行复杂的任务，同时最小化空间需求。这一创新提高了制造过程的效率，并对包括医学和航空航天在内的多个行业产生了影响。此外，理解retractility可以为运动和灵活性的机制提供见解。在生物力学中，研究肌肉和肌腱如何协同工作以产生运动的过程中，通常强调收缩的重要性。表现出retractility的肌肉能够高效地收缩和放松，从而实现平滑和协调的运动。这一原理对依赖精确动作在各自运动中脱颖而出的运动员至关重要。总之，retractility是一个多面向的概念，在自然界和人类创新中扮演着重要角色。从猫科捕食者的可收回爪子到受这些自然机制启发的先进机器人，收回和适应的能力对于生存和效率至关重要。随着我们继续探索retractility的复杂性，我们对生命的复杂性和人类设计的独创性有了更深的理解。