tractive
简明释义
adj. 牵引的;拖的;曳引的
英英释义
Relating to or causing traction; designed to pull or draw something. | 与牵引有关或导致牵引的;旨在拉动或拖动某物的。 |
单词用法
牵引力;驱动力 |
同义词
| 有吸引力的 | 这个产品的新设计非常有吸引力。 | ||
| 诱人的 | She wore an alluring dress that caught everyone's attention. | 她穿了一件诱人的裙子,吸引了所有人的注意。 | |
| 吸引人的 | 这则广告对年轻观众很有吸引力。 |
反义词
| 排斥的 | 那股令人反感的气味让所有人都离开了房间。 | ||
| 无吸引力的 | Her unattractive demeanor made it hard for her to make friends. | 她无吸引力的举止让她很难交到朋友。 |
例句
1.On the basis of test results, this article analyzes the tractive performance in detail under different soil conditions.
本文根据试验结果较详细地分析了机耕船在不同土壤条件下的牵引性能。
2.The test result of the said chassis tried in the paddy field is shown on data sheet, and some tractive characteristic curves of tested track are given.
示出用该底盘在水田中试验结果的一组数据,画出被试履带行走装置在试验地中的牵引特性曲线。
3.So small tractors fitted with iron wheel with lugs can improve tractive and appendiculate performance of tractor in dry land.
表明小型轮式拖拉机叶轮与胶轮并装可提高旱地作业,特别是重负荷作业时的牵引附着性能。
4.According to wear mechanism of the locomotive tractive gears, from the Viewpoint of tribology, the process of gearing is analyzed.
根据机车牵引齿轮磨损机理,从摩擦学角度出发分析轮齿啮合过程。
5.The power of culture appears as bondage, comprehension, regulation and tractive force.
文化力主要表现为粘合力、理解力、规范力、牵引力。
6.It features with compact structure, great transmission efficiency and big tractive forces.
其具有结构紧凑、传动效率高、牵引力大的特点。
7.Aim to explore the monitoring effect of the somatosensory cortical evoked potential (SCEP) on the tractive spinal cord injury.
目的探索体感皮层诱发电位(SCEP)对牵张性脊髓损伤的监护作用。
8.Engineers are studying the tractive properties of different materials for better performance.
工程师们正在研究不同材料的牵引特性,以获得更好的性能。
9.The design of the tire affects its tractive capabilities on various terrains.
轮胎的设计影响其在各种地形上的牵引能力。
10.The tractive efforts of the vehicle's wheels determine its acceleration.
车辆轮子的牵引力决定了其加速度。
11.The tractive force of the train helps it to move forward efficiently.
火车的牵引力帮助它高效地向前移动。
12.In robotics, tractive'>牵引系统对运动和稳定性至关重要。
作文
In the world of physics and engineering, the term tractive refers to the ability to pull or draw something towards a source of force. This concept is particularly important in various fields, including transportation, machinery, and even nature. Understanding the principles of tractive forces can help us design more efficient systems and improve our understanding of how different forces interact with one another.For instance, consider the design of trains and automobiles. Engineers must take into account the tractive force required to move these vehicles forward. The engines or motors must generate enough power to overcome resistance from friction, air drag, and other opposing forces. A train's tractive effort is crucial for its ability to start moving from a standstill and maintain speed on inclines. The greater the tractive force, the better the vehicle can perform under various conditions.Moreover, the concept of tractive forces extends beyond just mechanical systems. In nature, animals exhibit tractive behaviors as well. For example, when a lion pulls its prey towards itself, it is utilizing its natural strength to exert a tractive force. Similarly, when plants grow towards sunlight, they are demonstrating a different kind of tractive response, where they are drawn towards a light source.The significance of tractive forces can also be observed in the field of robotics. Engineers design robots that can navigate through various terrains by optimizing their tractive capabilities. For instance, a robot designed for search and rescue missions must have sufficient tractive force to climb over debris or pull objects to clear a path. Enhancing the tractive properties of robotic limbs can make them more effective in performing tasks in challenging environments.Additionally, the study of tractive forces has implications for renewable energy technologies. Wind turbines, for example, rely on the tractive forces of wind to generate electricity. Understanding how to maximize the tractive effect of wind on turbine blades can lead to more efficient energy production. Engineers continuously work on improving the design of these turbines to harness the full potential of tractive forces from natural elements.In conclusion, the concept of tractive forces plays a vital role in numerous aspects of our lives, from transportation to robotics and renewable energy. By comprehending how tractive forces operate, we can innovate and improve various technologies, making them more efficient and effective. Whether it’s through the design of powerful engines, the creation of advanced robots, or the development of sustainable energy solutions, the principles of tractive forces remain at the forefront of scientific and engineering advancements. Understanding these forces not only enhances our technological capabilities but also deepens our appreciation for the natural world around us, where tractive interactions are constantly at play.
在物理和工程的世界中,术语tractive指的是将某物拉向力源的能力。这个概念在运输、机械甚至自然等多个领域都特别重要。理解tractive力的原理可以帮助我们设计更高效的系统,并改善我们对不同力之间相互作用的理解。例如,考虑火车和汽车的设计。工程师必须考虑到移动这些车辆所需的tractive力。发动机或电动机必须产生足够的动力来克服来自摩擦、空气阻力和其他反向力的阻力。火车的tractive努力对于其从静止状态开始移动和在坡道上保持速度至关重要。Tractive力越大,车辆在各种条件下的表现就越好。此外,tractive力的概念不仅限于机械系统。在自然界中,动物也表现出tractive行为。例如,当狮子将猎物拉向自己时,它利用自身的力量施加tractive力。同样,当植物朝阳光生长时,它们展示了一种不同类型的tractive反应,即它们被光源吸引。Tractive力的重要性还体现在机器人技术领域。工程师设计能够穿越各种地形的机器人,通过优化其tractive能力来实现。例如,专为搜救任务设计的机器人必须具备足够的tractive力,以便在废墟上攀爬或拉动物体以清除道路。增强机器人的肢体的tractive特性可以使它们在挑战性环境中更有效地执行任务。此外,tractive力的研究对可再生能源技术有影响。例如,风力涡轮机依赖风的tractive力来发电。了解如何最大化风对涡轮叶片的tractive效果可以导致更高效的能源生产。工程师不断致力于改善这些涡轮的设计,以利用自然元素的tractive力的全部潜力。总之,tractive力的概念在我们生活的多个方面发挥着重要作用,从运输到机器人技术以及可再生能源。通过理解tractive力的运作方式,我们可以创新并改进各种技术,使其更加高效和有效。无论是通过强大发动机的设计、先进机器人的创造,还是可持续能源解决方案的发展,tractive力的原理始终处于科学和工程进步的前沿。理解这些力量不仅增强了我们的技术能力,还加深了我们对周围自然世界的欣赏,在那里,tractive相互作用始终在发挥作用。
