torques
简明释义
n. 彩色项毛圈
英英释义
单词用法
转矩控制,力矩调节 | |
液力变矩器;转矩变换器 |
同义词
| 扭曲 | 机械师施加扭矩以拧紧螺栓。 | ||
| 旋转 | 发动机产生扭矩以推动车辆。 | ||
| 转动 | 体操运动员在空中扭动身体。 | ||
| 力 | 车轮在停止前旋转了一整圈。 |
反义词
| 放松 | 机械师放松了螺栓的张力。 | ||
| 松开 | 他松开了扳手的握把。 |
例句
1.Shock loading can also affect braking and acceleration torques though, again, such effects are speed-dependent.
冲击负荷也会影响刹车和加速扭矩虽然再次,这种影响是速度依赖性。
2.The slider mechanism is optimized on maximum sum of transmitted torques at the two limiting positions.
摆块机构是根据两极限位置的传递力矩之和最大进行优化的。
3.The internal and external torques balance each other and the yarn will be balanced.
内外扭转力之间相互平衡使得纱线保持平衡。
4.On the basis of above, a method for both suppressing vibration and optimizing joint-torques is proposed by using Lagrangian multiplier method.
在此基础上利用拉格朗日乘子法,提出了一种在满足抑振的同时进行机器人关节力矩优化的方法。
5.The analysis indicates that it is possible to produce synchronous and asynchronous additional torques.
分析表明产生附加同步和异步转矩是可能的。
6.Recommended flywheel bolt torques are.
飞轮螺栓的推荐扭力为。
7.The internal flow field of multi-turbine is studied by CFD software, and the simulated pressure drops and torques are discussed in this paper.
应用CFD软件对涡轮钻具组的内流场进行了分析研究,重点讨论了模拟压降和扭矩。
8.The calculation formulas of the fundamental and steady harmonic and pulse harmonic electromagnetic torques have been derived.
导出了基波电磁转矩、稳定谐波电磁转矩及脉动谐波电磁转矩的计算公式。
9.Once dust is discharged, the torques from hammer and rocker will close quickly and realize air lock.
一旦积灰卸去后,重锤与摇杆产生的力矩使阀板迅速关闭,实现锁气。
10.In physics, torques are crucial for understanding rotational motion.
在物理学中,扭矩对于理解旋转运动至关重要。
11.The bicycle's pedals require a specific amount of torques for efficient power transfer.
自行车的踏板需要特定的扭矩以实现高效的动力传输。
12.The mechanic adjusted the engine's torques to ensure optimal performance.
机械师调整了发动机的扭矩以确保最佳性能。
13.Engineers use a torque wrench to measure the torques applied to various components.
工程师使用扭矩扳手来测量施加在各种组件上的扭矩。
14.When tightening the bolts, it's important to apply the correct torques specified by the manufacturer.
在拧紧螺栓时,应用制造商规定的正确扭矩是很重要的。
作文
In the field of physics and engineering, the concept of torques (扭矩) plays a crucial role in understanding how forces affect the motion of objects. Simply put, torques are measures of the rotational force applied to an object around a pivot point. This concept is essential not only in mechanical engineering but also in various everyday applications, such as riding a bicycle or driving a car. When we talk about torques, we often refer to the equation that defines it: torques = force × distance from the pivot point. The further away the force is applied from the pivot, the greater the torques generated. This principle can be observed when using a wrench; applying force at the end of the wrench produces more torques than if the force were applied closer to the pivot. Understanding torques is vital for engineers who design various machinery and structures. For instance, when constructing bridges, engineers must calculate the torques acting on different components to ensure stability and safety. If the torques are not balanced correctly, it could lead to structural failure. Similarly, in automotive engineering, the torques produced by an engine affects the vehicle's acceleration and overall performance. Moreover, torques are not only limited to mechanical systems; they also play a significant role in biological systems. For example, when a human being walks or runs, the muscles generate torques at the joints, allowing for movement. The efficiency of these movements depends on the proper application of torques, which is why athletes often train to improve their strength and coordination. In sports, understanding torques can enhance performance. Take golf, for instance. A golfer must apply the right amount of torques during their swing to hit the ball effectively. Too much or too little torques can result in a poor shot. Coaches often emphasize the importance of technique to ensure that players can generate optimal torques without risking injury. In conclusion, torques (扭矩) are fundamental to both theoretical and practical applications across various fields. From engineering to sports, the ability to understand and manipulate torques allows us to design better machines, perform physical activities more efficiently, and ultimately improve our lives. As we continue to explore the principles of physics, the significance of torques will undoubtedly remain a central topic in both academic study and practical application.
