tensional
简明释义
adj. 张力的;紧张的
英英释义
与张力相关或特征性地表现出张力;涉及张力的。 |
单词用法
张力应力 | |
张力力量 | |
张力特性 | |
张力平衡 |
同义词
| 拉紧的 | 电缆被拉紧以确保稳定性。 | ||
| 受压的 | 材料在重载下受到压力。 | ||
| 拉伸的 | 结构在地震中受到拉伸。 |
反义词
| 压缩的 | The compressive strength of the material was tested under various conditions. | 该材料在不同条件下测试了其压缩强度。 | |
| 放松的 | In a relaxed state, the muscles can recover more effectively. | 在放松状态下,肌肉可以更有效地恢复。 |
例句
1.Its branched fault, the Paximu fault, has changed to compressive fault from tensional one after the Middle Pleistocene.
其分支断裂帕西木断裂在中更新世之后,由正断层变为压性断层。
2.The paper focus on the horizontal and vertical characters of tensional normal fault formed in the early Caledonian.
着重分析了加里东早期张性正断裂的平面和剖面特征。
3.In contrast, sedimentation related source beds were traceable to some basins caused by tensional events along the northern margin of the Yangtze massif.
在杨子地块北缘的被动陆缘拉张海盆形成了与沉积有关的矿源层。
4.When the length of beam becomes longer, it is possible that new tensional crack will occur in the new fixed end.
当梁的长度增大时,有可能在固定端形成新的拉破裂。
5.The mudstone reservoir was formed in lacustrine facies of lamellar marl in the deep water or semi-deep water sediment with tensional state.
泥质岩储集层形成于呈拉伸状态的深湖半深湖相纹层状泥灰岩之中。
6.Triple junction is the intersection point among three plate boundaries. The boundary could be tensional, compressional or shear fault.
三条板块边界常相交于一点,这一个交点就叫做板块三联接合点(简称三联点,或称三节点)。
7.The rocks are crustal remelting, shall level granites formed in a within-plate tensional tectonic environment.
岩石属于大陆板内张性构造环境下高侵位形成的壳源重熔型花岗岩类。
8.The flow structures and geometry evidences of the dykes indicate that the magma source of these dykes intruded the pre-existing tensional rupture.
岩墙群的构造形态和流动构造表明鲁西基性岩墙群是基性岩浆侵位到先存的张性破裂中的产物,岩墙自北部向南部侵入。
9.The tensional 拉伸的 strength of the cable is crucial for the stability of the tower.
电缆的tensional 拉伸的 强度对于塔的稳定性至关重要。
10.The tensional 拉伸的 properties of the fabric determine its suitability for outdoor gear.
面料的tensional 拉伸的 性能决定了其适合户外装备的程度。
11.In rock climbing, understanding tensional 拉伸的 forces can help climbers avoid dangerous situations.
在攀岩中,理解tensional 拉伸的 力可以帮助攀登者避免危险情况。
12.The bridge's design must account for the tensional 拉伸的 forces acting on it during high winds.
桥梁的设计必须考虑到在强风中作用于它的tensional 拉伸的 力。
13.Engineers measure the tensional 拉伸的 stress in materials to ensure safety in construction.
工程师测量材料中的tensional 拉伸的 应力,以确保建筑安全。
作文
In the field of physics and engineering, understanding the concept of tension is crucial. Tension refers to the force that is transmitted through a string, rope, or any flexible connector when it is pulled tight by forces acting from opposite ends. When we talk about forces in a mechanical context, we often encounter the term tensional">tensional, which describes anything related to or resulting from tension. For instance, when a cable is used to support a bridge, the forces acting on that cable create a tensional">tensional stress that must be carefully calculated to ensure the structure's integrity.One of the most common examples of tensional">tensional forces can be seen in everyday life. Consider a simple scenario such as playing tug-of-war. Each team pulls on the rope with equal force, creating a state of tension within the rope itself. This tension creates a tensional">tensional force that can be measured and analyzed. Understanding how these forces interact can help us design better equipment and structures, ensuring they can withstand the stresses placed upon them.Moreover, the concept of tensional">tensional forces extends beyond physical objects. In biology, for example, cells experience tensional">tensional forces during processes such as division and movement. The cytoskeleton of a cell provides structural support and helps maintain its shape by managing these tensional">tensional forces. If the balance of these forces is disrupted, it can lead to various cellular dysfunctions, highlighting the importance of understanding tensional">tensional dynamics in biological systems.In architecture, the principles of tensional">tensional structures are applied to create buildings and bridges that can withstand significant loads while utilizing materials efficiently. For instance, the use of cables in suspension bridges exemplifies the application of tensional">tensional forces, where the weight of the bridge is supported by cables that experience tension. Engineers must calculate the tensional">tensional forces acting on these cables to ensure safety and stability.Furthermore, in the realm of sports, understanding tensional">tensional forces can enhance performance. Athletes often rely on equipment designed to optimize these forces. For example, a well-designed tennis racket utilizes tensional">tensional properties to provide maximum power and control during a match. The strings of the racket must be tensioned correctly to achieve the desired performance, demonstrating the practical applications of tensional">tensional concepts in sports science.In conclusion, the term tensional">tensional encompasses a wide range of applications across various fields, including physics, biology, engineering, and sports. By understanding the implications of tensional">tensional forces, we can improve our designs, enhance our understanding of biological processes, and ultimately create more effective solutions in both technology and athletics. As we continue to explore the complexities of these forces, the significance of tensional">tensional analysis will only grow, paving the way for advancements in numerous disciplines.
在物理和工程领域,理解张力的概念至关重要。张力是指通过绳子、绳索或任何灵活连接器传递的力,当它被来自相对两端的力拉紧时。当我们在机械上下文中讨论力时,我们经常会遇到术语tensional">tensional,它描述与张力相关或由张力引起的任何事物。例如,当一根电缆用于支撑桥梁时,对该电缆施加的力产生了tensional">tensional 应力,必须仔细计算以确保结构的完整性。tensional">tensional 力的一个常见例子可以在日常生活中看到。考虑一个简单的场景,比如玩拔河比赛。每个团队都用相等的力量拉动绳子,在绳子内部产生了张力。这种张力产生了一种可以测量和分析的tensional">tensional 力。理解这些力如何相互作用可以帮助我们设计更好的设备和结构,确保它们能够承受施加在其上的压力。此外,tensional">tensional 力的概念超越了物理对象。在生物学中,例如,细胞在分裂和运动等过程中经历tensional">tensional 力。细胞骨架提供结构支持,并通过管理这些tensional">tensional 力来帮助维持其形状。如果这些力的平衡被破坏,可能会导致各种细胞功能障碍,这突显了理解生物系统中tensional">tensional 动力学的重要性。在建筑学中,tensional">tensional 结构的原理被应用于创建能够承受重大负荷的建筑和桥梁,同时有效利用材料。例如,悬索桥中电缆的使用体现了tensional">tensional 力的应用,其中桥的重量由经历张力的电缆支撑。工程师必须计算作用在这些电缆上的tensional">tensional 力,以确保安全和稳定。此外,在体育领域,理解tensional">tensional 力可以提升表现。运动员通常依赖于旨在优化这些力的设备。例如,设计良好的网球拍利用了tensional">tensional 特性,以在比赛中提供最大力量和控制。网球拍的弦必须正确张紧,以实现所需的性能,展示了tensional">tensional 概念在运动科学中的实际应用。总之,tensional">tensional 一词涵盖了多个领域的广泛应用,包括物理、生物学、工程和体育。通过理解tensional">tensional 力的含义,我们可以改善设计,增强对生物过程的理解,并最终在技术和体育中创造更有效的解决方案。随着我们继续探索这些力的复杂性,tensional">tensional 分析的重要性只会增加,为众多学科的进步铺平道路。
