tensioning

简明释义

英[ˈtɛnʃənɪŋ]美[ˈtɛnʃənɪŋ]

n. 张力调整；拉紧；伸展

v. 拉紧（tension 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.Butted spokes and aluminum nipples are lighter but require extra skill during truing and tensioning.

对接接头辐条和铝更轻，但需要在整形和拉紧额外技能。

2.It has some directive significance in tensioning operation of circular saw and it's further study.

对圆锯片适张作业及其进一步的深入研究有一定指导意义。

3.Presentation on design and features of hanger and tensioning device for super large BF hot blast bustle.

介绍了特大型高炉热风围管吊挂及拉紧装置型式及特点。

4.According to the working feature of the elastic belt conveyor, an automatic tensioning device is designed.

针对长距离可伸缩大型带式输送机的工作特点，设计了一种自动张紧装置。

5.Some diseases usually appear in the tension construction of post-tensioning prestressed concrete beam slabs.

后张法预应力混凝土梁板在张拉施工过程中，经常会出现一些施工病害。

6.The minimum welding distortion was obtained by the combination of static and dynamic thermal tensioning.

静态与动态温差拉伸结合使用，获得了最小的焊接变形。

7.The preparation materials of steel strands, the enough length by end part tensioning position shall be required.

钢绞线下料时，留足端部张拉位置所必须的长度。

8.The reinforcement scheme, structure calculation, post tensioning ironware and construction essentials for the parking garage were introduced in this paper.

本文介绍了该停车库的加固方案、结构计算、后张拉铁件和施工要点。

9.Space pre-tension structures under construction and pre-tensioning are usually with sophisticated behaviors and small stiffness.

预应力空间结构施工张拉过程受力复杂，刚度较小。

10.During the installation, make sure to check the tensioning of the wires frequently.

在安装过程中，请确保经常检查电线的张紧情况。

11.The tensioning of the fabric in the tent prevents it from sagging.

帐篷中织物的张紧防止其下垂。

12.After tensioning the strings on the guitar, it sounded much better.

在吉他上张紧弦后，声音好听多了。

13.The engineer is responsible for the tensioning of the cables to ensure they can support the structure.

工程师负责张紧电缆，以确保它们能够支撑结构。

14.Proper tensioning of the bolts is crucial for the safety of the machinery.

螺栓的适当张紧对于机械的安全至关重要。

作文

In the world of engineering and construction, the term tensioning (拉紧) plays a crucial role in ensuring the stability and integrity of structures. Tensioning refers to the process of applying tension to a component, such as cables or rods, to enhance its strength and performance. This technique is commonly used in various applications, including bridges, buildings, and even sports equipment. Understanding the concept of tensioning (拉紧) is essential for engineers and architects as it directly impacts the safety and durability of their designs.One of the most prominent examples of tensioning (拉紧) can be seen in the construction of suspension bridges. These bridges rely on cables that are tensioned to support the weight of the structure and the vehicles traveling across them. The process of tensioning (拉紧) these cables is critical; if they are not properly tensioned, the bridge could sag or even collapse under load. Engineers meticulously calculate the required tension in each cable to ensure that the forces acting on the bridge are balanced, providing a safe passage for travelers.In addition to bridges, tensioning (拉紧) is also vital in the construction of high-rise buildings. Steel beams and cables are often tensioned to provide additional support against lateral forces, such as wind or earthquakes. By strategically applying tension, engineers can create more resilient structures that withstand extreme conditions. This use of tensioning (拉紧) techniques not only improves safety but also allows for innovative architectural designs that might not be feasible otherwise.Moreover, tensioning (拉紧) is not limited to large-scale constructions. In everyday products, such as sports equipment, the principle of tensioning (拉紧) is equally important. For instance, in tennis rackets, the strings are tensioned to achieve optimal performance. The right amount of tension affects the racket's power, control, and overall feel during play. Players often experiment with different levels of tensioning (拉紧) to find their preferred setup, demonstrating how this concept extends beyond engineering into recreational activities.The process of tensioning (拉紧) involves careful measurement and adjustment. Engineers use specialized tools and techniques to ensure that the correct amount of tension is applied. This precision is crucial; too much tension can lead to failure of the materials, while too little can result in inadequate support. As such, understanding the mechanics behind tensioning (拉紧) is a fundamental skill for professionals in the field.In conclusion, tensioning (拉紧) is a vital concept in both engineering and everyday applications. Its importance cannot be overstated, as it directly influences the safety, performance, and durability of structures and products. Whether it is in the construction of a massive bridge or the design of a simple tennis racket, the principles of tensioning (拉紧) are at work, showcasing the intricate balance between force and stability. As we continue to innovate and push the boundaries of design and construction, the role of tensioning (拉紧) will remain a key factor in our success.

在工程和建筑的世界中，术语tensioning（拉紧）在确保结构的稳定性和完整性方面起着至关重要的作用。tensioning（拉紧）是指对组件（如电缆或杆件）施加张力的过程，以增强其强度和性能。这种技术在各种应用中都很常见，包括桥梁、建筑物，甚至运动器材。理解tensioning（拉紧）的概念对于工程师和建筑师至关重要，因为它直接影响他们设计的安全性和耐久性。tensioning（拉紧）的一个显著例子可以在悬索桥的建造中看到。这些桥依赖于被张紧的电缆来支撑结构和车辆的重量。对这些电缆进行tensioning（拉紧）的过程至关重要；如果没有正确张紧，它们可能会下垂，甚至在负载下坍塌。工程师精确计算每根电缆所需的张力，以确保桥梁上施加的力保持平衡，为旅客提供安全的通行。除了桥梁，tensioning（拉紧）在高层建筑的建造中也至关重要。钢梁和电缆通常被张紧，以提供额外的支持以抵御侧向力，如风或地震。通过战略性地施加张力，工程师可以创建更具韧性的结构，以承受极端条件。这种tensioning（拉紧）技术的使用不仅提高了安全性，还允许创新的建筑设计，这在其他情况下可能是不可行的。此外，tensioning（拉紧）并不局限于大规模建设。在日常产品中，例如运动器材，tensioning（拉紧）的原理同样重要。例如，在网球拍中，琴弦被张紧以实现最佳性能。适当的张力影响球拍的力量、控制和整体感觉。玩家经常尝试不同的tensioning（拉紧）水平，以找到他们喜欢的设置，展示了这一概念如何从工程扩展到休闲活动。tensioning（拉紧）过程涉及仔细的测量和调整。工程师使用专业工具和技术来确保施加正确的张力。这种精确性至关重要；过大的张力可能导致材料失效，而过小的张力则可能导致支持不足。因此，理解tensioning（拉紧）背后的机械原理是该领域专业人士的基本技能。总之，tensioning（拉紧）是工程和日常应用中的一个重要概念。它的重要性不容小觑，因为它直接影响结构和产品的安全性、性能和耐久性。无论是在巨大的桥梁建造中，还是在简单的网球拍设计中，tensioning（拉紧）的原则都在发挥作用，展示了力量与稳定性之间的微妙平衡。随着我们继续创新并推动设计和建筑的界限，tensioning（拉紧）的角色将始终是我们成功的关键因素。