anchor shank

简明释义

锚杆

英英释义

例句

1.The design of the anchor shank (锚柄) plays a vital role in how well the anchor sets into the seabed.

设计的anchor shank (锚柄) 在锚如何扎入海底方面起着至关重要的作用。

2.When selecting an anchor, it's crucial to consider the length of the anchor shank (锚柄) for better holding power.

在选择锚时，考虑anchor shank (锚柄) 的长度对于更好的抓地力至关重要。

3.The anchor shank (锚柄) was bent during the storm, requiring replacement before the next voyage.

在风暴中anchor shank (锚柄) 被弯曲，需要在下次航行前更换。

4.The boat's stability improved significantly after the crew secured the anchor shank (锚柄) properly.

船员在正确固定了anchor shank (锚柄) 后，船的稳定性显著提高。

5.To ensure safety, always inspect the anchor shank (锚柄) for any signs of wear and tear.

为了确保安全，始终检查anchor shank (锚柄) 是否有磨损的迹象。

作文

The concept of an anchor shank is crucial in understanding how anchors function in various marine and construction applications. An anchor shank refers to the long, straight part of the anchor that connects the flukes to the crown. This component plays a vital role in ensuring that the anchor holds firmly to the seabed or ground, providing stability to vessels or structures above it. Without a well-designed anchor shank, the effectiveness of the entire anchoring system could be compromised.In marine environments, the anchor shank is typically made from high-strength materials to withstand the forces exerted by wind and water currents. These forces can be substantial, especially during storms or rough weather conditions. The length and thickness of the anchor shank can vary depending on the type of anchor and its intended use. For instance, a heavier and longer anchor shank might be necessary for larger vessels that require more holding power to remain stable in turbulent waters.When discussing the design of an anchor, it is essential to consider the relationship between the anchor shank and the flukes. The flukes are the angled parts of the anchor that dig into the seabed, providing the primary holding power. The anchor shank must be appropriately designed to allow the flukes to set effectively while also providing sufficient leverage to resist pulling forces. A well-balanced anchor with a strong anchor shank will perform better than one with a weak or poorly designed shank.In construction, the principles of anchoring are similar but may involve different types of anchors, such as those used for securing buildings or structures to the ground. Here, the anchor shank may connect to various fittings and hardware that ensure the structure remains stable and secure. The integrity of the anchor shank is vital in these applications, as it must endure not only static loads but also dynamic forces caused by wind, earthquakes, or other environmental factors.Understanding the importance of the anchor shank extends beyond just its physical characteristics; it also involves recognizing the engineering principles that govern its performance. Engineers must consider factors such as material fatigue, corrosion resistance, and the overall weight distribution when designing an anchor with a reliable anchor shank. These considerations are critical for ensuring safety and effectiveness in both marine and construction applications.In summary, the anchor shank is a fundamental component of any anchoring system, whether in maritime or construction contexts. Its design and functionality directly impact the stability and security of the structures or vessels it supports. By understanding the role of the anchor shank, we can appreciate the complexities involved in creating effective anchoring solutions that meet the demands of various environments. As technology advances, innovations in anchor design will continue to improve the efficiency and reliability of anchor shank systems, ultimately enhancing safety and performance across multiple industries.

“锚杆”的概念在理解锚在各种海洋和建筑应用中的功能时至关重要。“锚杆”指的是连接锚的爪和锚冠的长直部分。这个组件在确保锚牢固地固定在海床或地面上方面起着至关重要的作用，为其上方的船只或结构提供稳定性。如果没有设计良好的“锚杆”，整个锚固系统的有效性可能会受到影响。在海洋环境中，“锚杆”通常由高强度材料制成，以承受风和水流施加的力量。这些力量可以是相当巨大的，尤其是在风暴或恶劣天气条件下。“锚杆”的长度和厚度可能会根据锚的类型及其预期用途而有所不同。例如，对于需要更大保持力以保持在动荡水域中稳定的大型船只，可能需要更重且更长的“锚杆”。在讨论锚的设计时，考虑“锚杆”和爪之间的关系是至关重要的。爪是锚的倾斜部分，能深入海床，提供主要的保持力。“锚杆”必须设计得当，以使爪能够有效地设置，同时提供足够的杠杆来抵抗拉力。一个平衡良好的锚，配有强大的“锚杆”，将比一个弱或设计不良的锚性能更好。在建筑中，锚固的原理类似，但可能涉及不同类型的锚，例如用于将建筑物或结构固定在地面上的锚。在这里，“锚杆”可能连接到各种配件和硬件，以确保结构保持稳定和安全。“锚杆”的完整性在这些应用中至关重要，因为它不仅必须承受静态负荷，还要承受由风、地震或其他环境因素引起的动态力量。理解“锚杆”的重要性不仅限于其物理特性；还涉及认识支配其性能的工程原理。工程师在设计具有可靠“锚杆”的锚时，必须考虑材料疲劳、耐腐蚀性以及整体重量分布等因素。这些考虑对于确保安全性和有效性在海洋和建筑应用中至关重要。总之，“锚杆”是任何锚固系统的基本组成部分，无论是在海事还是建筑背景下。它的设计和功能直接影响其支持的结构或船只的稳定性和安全性。通过理解“锚杆”的作用，我们可以欣赏到创造有效锚固解决方案所涉及的复杂性，这些解决方案满足各种环境的需求。随着技术的进步，锚设计的创新将继续提高“锚杆”系统的效率和可靠性，最终增强多个行业的安全性和性能。