anvil roll

简明释义

支承辊

英英释义

例句

1.By applying an anvil roll, the craftsman was able to create a smoother finish on the blade.

通过应用砧锤滚动，工匠能够使刀刃更加光滑。

2.Using the anvil roll, the artisan was able to bend the metal without breaking it.

利用砧锤滚动，工匠能够弯曲金属而不至于断裂。

3.The technique of anvil roll is essential for creating intricate designs in metalwork.

砧锤滚动的技术对于在金属加工中创造复杂设计至关重要。

4.The blacksmith used the anvil roll to shape the metal more effectively.

铁匠使用砧锤滚动更有效地塑造金属。

5.During the forging process, the anvil roll helped in reducing the thickness of the steel.

在锻造过程中，砧锤滚动帮助减少了钢材的厚度。

作文

The concept of the anvil roll is often used in various contexts, particularly in mechanics and engineering. At its core, the term refers to a specific type of rolling motion that resembles the way an anvil might roll over a surface. This motion is characterized by a unique combination of rotational and translational movements that can be observed in different physical systems. Understanding the anvil roll is essential for engineers and designers who work with machinery and materials, as it can significantly impact the performance and efficiency of mechanical systems.To illustrate this concept, let’s consider a simple example involving a cylindrical object, such as a barrel. When a barrel rolls down a slope, it does not simply translate downwards; instead, it rotates around its axis while simultaneously moving forward. This dual movement can be likened to the anvil roll, where the object maintains contact with the ground while also rolling in a controlled manner. The physics behind this motion involves various forces, including gravity, friction, and inertia, all of which play a crucial role in determining how the object behaves during the roll.Moreover, the anvil roll can be observed in more complex systems, such as in the design of certain machines or vehicles. For instance, when engineers design wheels or gears, they must consider how these components will interact with one another during motion. If the design allows for a smooth anvil roll, it can lead to increased efficiency and reduced wear on the components involved. This principle is particularly important in industries where precision and durability are paramount, such as aerospace or automotive engineering.In addition to its application in engineering, the anvil roll metaphorically represents the idea of resilience and adaptability in various fields. Just as an anvil endures the force of a hammer while maintaining its shape, individuals and organizations can face challenges and obstacles while continuing to move forward. This perspective encourages a mindset of perseverance, suggesting that one can roll through difficulties by leveraging their strengths and resources effectively.In conclusion, the anvil roll serves as both a technical term in the realm of mechanics and a metaphor for resilience in life. By understanding the dynamics of this rolling motion, we can appreciate its significance in engineering and its broader implications for personal and organizational growth. Whether in designing efficient machines or navigating life's challenges, the principles underlying the anvil roll remind us of the importance of balance, control, and determination in achieving our goals.

“anvil roll”这个概念常常在各种上下文中使用，特别是在机械和工程领域。其核心是指一种特定类型的滚动运动，类似于铁砧在表面上滚动的方式。这种运动的特点是旋转和位移的独特组合，可以在不同的物理系统中观察到。理解anvil roll对于从事机械和材料工作的工程师和设计师至关重要，因为它会显著影响机械系统的性能和效率。为了说明这一概念，让我们考虑一个简单的例子，涉及一个圆柱形物体，例如桶。当一个桶沿着坡道滚动时，它并不仅仅是向下平移；相反，它在其轴上旋转，同时向前移动。这种双重运动可以比作anvil roll，其中物体在与地面接触的同时以受控的方式滚动。这种运动背后的物理学涉及各种力量，包括重力、摩擦和惯性，所有这些都在决定物体在滚动过程中的行为中发挥着关键作用。此外，anvil roll也可以在更复杂的系统中观察到，例如某些机器或车辆的设计。例如，当工程师设计轮子或齿轮时，他们必须考虑这些组件在运动过程中如何相互作用。如果设计允许平稳的anvil roll，则可以提高效率并减少相关组件的磨损。这一原则在航空航天或汽车工程等对精度和耐久性要求极高的行业中尤为重要。除了在工程中的应用外，anvil roll在各个领域也隐喻地代表了韧性和适应能力的理念。正如铁砧在承受锤子的力量时保持其形状一样，个人和组织可以在面对挑战和障碍时继续向前推进。这种观点鼓励一种坚持不懈的心态，暗示通过有效利用自身的优势和资源，人们可以克服困难。总之，anvil roll既是机械领域的一个技术术语，也是生活中韧性的隐喻。通过理解这种滚动运动的动态，我们可以欣赏它在工程中的重要性及其对个人和组织成长的更广泛影响。无论是在设计高效的机器还是在应对生活挑战时，anvil roll所蕴含的原则提醒我们，在实现目标的过程中，平衡、控制和决心的重要性。