creep speed
简明释义
蠕变速率
英英释义
Creep speed refers to a slow, controlled movement of a vehicle or machine, typically used for precise maneuvering in tight spaces. | 爬行速度指的是一种缓慢、受控的车辆或机器移动,通常用于在狭小空间内进行精确操控。 |
例句
1.The robot moved at a creep speed to avoid disturbing the delicate equipment nearby.
机器人以缓慢爬行速度移动,以避免打扰附近的精密设备。
2.During the test, the vehicle was set to creep speed to ensure safety while navigating through the narrow path.
在测试过程中,车辆被设置为缓慢爬行速度,以确保在狭窄路径上的安全行驶。
3.The train approached the station at a creep speed to ensure a smooth and safe stop.
火车以缓慢爬行速度接近车站,以确保平稳和安全的停靠。
4.The construction workers used the crane at creep speed to carefully place the heavy beams.
建筑工人以缓慢爬行速度操作起重机,以小心地放置重梁。
5.In the simulation, the drone flew at creep speed to capture detailed images of the terrain.
在模拟中,无人机以缓慢爬行速度飞行,以捕捉地形的详细图像。
作文
In the world of engineering and technology, various terms are used to describe specific processes and phenomena. One such term is creep speed, which refers to the slow and controlled movement of machinery or vehicles under certain conditions. Understanding creep speed is crucial for engineers and operators alike, as it plays a significant role in ensuring safety and efficiency during operations.The concept of creep speed is particularly relevant in industries such as construction, mining, and transportation. For instance, when heavy machinery is operating on uneven terrain, maintaining a creep speed allows operators to navigate safely without risking tipping over or causing accidents. This slow pace ensures that the equipment remains stable while allowing for precise movements, which is essential when working in confined spaces or around obstacles.Additionally, creep speed is vital in certain manufacturing processes where precision is paramount. In assembly lines, machines may need to move components at a slow and steady rate to ensure that each part is correctly aligned and fitted. If the speed is too fast, there is a risk of errors, leading to defective products and wasted materials. Therefore, controlling creep speed can significantly enhance the quality of the final output.Moreover, in the context of vehicles, particularly those used in off-road conditions, creep speed allows for better traction and control. When driving on slippery or rugged surfaces, a vehicle moving at creep speed can maintain grip and avoid skidding. This is especially important for trucks and SUVs designed for rough terrains, where sudden acceleration could lead to loss of control.Safety is another critical aspect associated with creep speed. In environments where there are many workers or other vehicles, moving slowly can help prevent accidents. For example, in warehouses or construction sites, a vehicle operating at creep speed can react more quickly to unexpected obstacles or personnel, reducing the likelihood of collisions.Furthermore, understanding the implications of creep speed extends beyond just operational contexts. It also has environmental considerations. For instance, vehicles traveling at lower speeds tend to consume less fuel and produce fewer emissions compared to those going at higher speeds. This makes creep speed an environmentally friendly option in situations where speed is not the primary concern.In conclusion, the term creep speed encapsulates an essential aspect of various industries, emphasizing the importance of controlled, slow movement for safety, efficiency, and environmental sustainability. As technology continues to evolve, the relevance of understanding and implementing creep speed will only grow, highlighting the need for training and awareness among operators and engineers. By mastering the concept of creep speed, professionals can enhance their work processes, ensuring that both human and mechanical resources are utilized effectively and safely.
在工程和技术的世界中,使用各种术语来描述特定的过程和现象。其中一个术语是爬行速度,指的是在特定条件下机械或车辆的缓慢和受控运动。理解爬行速度对工程师和操作员都至关重要,因为它在确保操作的安全性和效率方面发挥着重要作用。爬行速度的概念在建筑、矿业和运输等行业尤为相关。例如,当重型机械在不平坦的地形上操作时,保持爬行速度可以让操作员安全导航,而不必冒着翻倒或造成事故的风险。这种缓慢的速度确保设备保持稳定,同时允许精确运动,这在狭小空间或障碍物周围工作时至关重要。此外,爬行速度在某些制造过程中也至关重要,其中精确性至关重要。在装配线上,机器可能需要以缓慢而稳定的速度移动组件,以确保每个部分正确对齐并安装。如果速度过快,就有可能出现错误,导致缺陷产品和材料浪费。因此,控制爬行速度可以显著提高最终产出的质量。此外,在车辆的背景下,尤其是那些用于越野条件的车辆,爬行速度可以更好地获得牵引力和控制。当在滑或崎岖的表面上行驶时,以爬行速度移动的车辆可以保持抓地力,避免打滑。这对于设计用于粗糙地形的卡车和SUV尤其重要,因为突然加速可能导致失去控制。安全性是与爬行速度相关的另一个关键方面。在有许多工人或其他车辆的环境中,缓慢移动可以帮助防止事故。例如,在仓库或建筑工地上,以爬行速度操作的车辆可以更迅速地对意外障碍物或人员做出反应,从而减少碰撞的可能性。此外,理解爬行速度的影响超出了操作上下文。它还有环境方面的考虑。例如,与以较高速度行驶的车辆相比,以较低速度行驶的车辆往往消耗更少的燃料并产生更少的排放。这使得在速度不是主要关注点的情况下,爬行速度成为一种环保的选择。总之,术语爬行速度概括了各个行业的一个重要方面,强调了为了安全、效率和环境可持续性而进行受控缓慢运动的重要性。随着技术的不断发展,理解和实施爬行速度的相关性只会增加,突显出对操作员和工程师进行培训和意识提升的必要性。通过掌握爬行速度的概念,专业人员可以增强他们的工作流程,确保人力和机械资源得到有效和安全的利用。
相关单词
