mechanical jamming

简明释义

机械的干扰

英英释义

例句

1.During the test, mechanical jamming occurred, preventing the machine from completing its cycle.

在测试过程中发生了机械卡滞，导致机器无法完成其循环。

2.The technician explained that mechanical jamming in the gears could lead to serious malfunctions.

技术人员解释说，齿轮中的机械卡滞可能导致严重故障。

3.To fix the mechanical jamming in the conveyor belt, we had to remove several items that were stuck.

为了解决输送带上的机械卡滞问题，我们不得不移除几件被卡住的物品。

4.The printer experienced mechanical jamming, causing it to stop working.

打印机出现了机械卡纸，导致它停止工作。

5.We need to regularly maintain the equipment to avoid mechanical jamming issues.

我们需要定期维护设备，以避免出现机械卡滞问题。

作文

Mechanical systems are integral to modern technology, underpinning everything from simple household appliances to complex industrial machinery. One critical phenomenon that can disrupt the functionality of these systems is known as mechanical jamming. This term refers to a situation where moving parts become stuck or hindered due to physical interference, leading to a breakdown in operation. Understanding mechanical jamming is essential for engineers and designers, as it can significantly affect the efficiency and reliability of mechanical devices.In everyday life, we encounter various examples of mechanical jamming. A common instance is when a printer jams, causing it to stop working properly. This usually occurs when paper gets caught in the rollers or when the ink cartridges are not aligned correctly. Such issues highlight the importance of regular maintenance and design considerations that minimize the risk of mechanical jamming.From an engineering perspective, mechanical jamming can arise from several factors, including wear and tear, improper assembly, or even environmental conditions such as temperature and humidity. For instance, in robotic systems, if the joints are not lubricated adequately, they may experience increased friction, leading to mechanical jamming. Consequently, engineers must conduct thorough analyses during the design phase to anticipate potential jamming scenarios and implement solutions that enhance the system's robustness.Moreover, mechanical jamming is not limited to traditional machines. In the realm of robotics, particularly in soft robotics, researchers are exploring how mechanical jamming can be used intentionally to create adaptable and versatile structures. By manipulating the stiffness of materials through jamming, robots can change their shape and function, demonstrating that mechanical jamming can have both negative and positive implications depending on the context.The implications of mechanical jamming extend beyond individual devices; they can impact entire production lines. In industrial settings, a single jammed machine can halt operations, leading to significant downtime and financial losses. Therefore, companies invest in advanced monitoring systems to detect early signs of mechanical jamming, allowing for preventive maintenance before a complete failure occurs.In conclusion, mechanical jamming is a multifaceted issue that poses challenges across various domains of engineering and technology. Whether it leads to malfunction in everyday devices or serves as a tool in innovative robotic applications, understanding and addressing mechanical jamming is crucial for enhancing performance and reliability. As technology continues to advance, so too must our strategies for managing this phenomenon, ensuring that our mechanical systems operate smoothly and efficiently. By prioritizing the study of mechanical jamming, we can pave the way for more resilient designs that stand the test of time and usage.

机械系统是现代技术的重要组成部分，支撑着从简单的家用电器到复杂的工业机械的方方面面。一个可以干扰这些系统功能的关键现象被称为机械卡滞。这个术语指的是当运动部件由于物理干扰而变得卡住或受到阻碍，从而导致操作中断的情况。理解机械卡滞对工程师和设计师至关重要，因为它可以显著影响机械设备的效率和可靠性。在日常生活中，我们会遇到各种机械卡滞的例子。一个常见的例子是打印机卡纸，导致其无法正常工作。这通常发生在纸张被卷筒卡住或墨盒未正确对齐时。这些问题突显了定期维护和设计考虑的重要性，以最大限度地减少机械卡滞的风险。从工程的角度来看，机械卡滞可能由多种因素引起，包括磨损、不当组装，甚至环境条件如温度和湿度。例如，在机器人系统中，如果关节没有得到充分润滑，它们可能会经历增加的摩擦，从而导致机械卡滞。因此，工程师在设计阶段必须进行全面分析，以预见潜在的卡滞场景，并实施增强系统韧性的解决方案。此外，机械卡滞并不限于传统机器。在软机器人领域，研究人员正在探索如何有意利用机械卡滞来创建适应性强和多功能的结构。通过操控材料的刚度来实现卡滞，机器人可以改变形状和功能，这表明机械卡滞在不同背景下可能具有负面和正面的含义。机械卡滞的影响不仅限于单个设备；它们可以影响整个生产线。在工业环境中，单台卡住的机器可能会停止操作，导致显著的停机时间和财务损失。因此，公司投资于先进的监测系统，以检测机械卡滞的早期迹象，从而在完全故障发生之前进行预防性维护。总之，机械卡滞是一个多方面的问题，在工程和技术的各个领域都带来了挑战。无论是导致日常设备的故障，还是作为创新机器人应用中的工具，理解和解决机械卡滞对于提升性能和可靠性至关重要。随着技术的不断进步，我们对管理这一现象的策略也必须与时俱进，确保我们的机械系统平稳高效地运行。通过优先研究机械卡滞，我们可以为更具韧性的设计铺平道路，使其经受住时间和使用的考验。