skeleton hull

简明释义

裸船体

英英释义

例句

1.The skeleton hull of the new yacht allows for easy customization of the interior layout.

新游艇的骨架外壳允许对内部布局进行轻松定制。

2.During the inspection, we found that the skeleton hull of the ship was in excellent condition.

在检查过程中，我们发现船只的骨架外壳状况极佳。

3.Engineers are developing a skeleton hull design that improves aerodynamics.

工程师们正在开发一种提高空气动力学性能的骨架外壳设计。

4.The artist used a skeleton hull as the base for her sculpture, emphasizing its form.

这位艺术家使用骨架外壳作为她雕塑的基础，强调其形状。

5.The architect designed the building with a skeleton hull to maximize space efficiency.

建筑师设计了一个具有骨架外壳的建筑，以最大化空间效率。

作文

The concept of a skeleton hull is often discussed in the context of shipbuilding and marine engineering. A skeleton hull refers to the framework or structure of a vessel before it is fully covered with materials such as metal or fiberglass. This initial stage of construction is crucial, as it determines the strength, stability, and overall design of the ship. The skeleton hull serves as the backbone of the vessel, providing essential support and shape. When engineers design a skeleton hull, they must consider various factors, including the intended use of the ship, the materials available, and the environmental conditions it will face. For instance, a cargo ship may require a different skeleton hull design compared to a luxury yacht. The weight distribution, buoyancy, and resistance to waves are all critical elements that need careful consideration during this phase.One of the advantages of constructing a skeleton hull is that it allows for easier modifications and adjustments. During the early stages of building, engineers can test the structural integrity and make changes as needed without significant costs. This flexibility is particularly important in modern shipbuilding, where technology and design preferences evolve rapidly.Moreover, the skeleton hull plays a vital role in ensuring the safety of the vessel. A well-designed framework can withstand rough seas and adverse weather conditions, protecting both the ship and its crew. Engineers often use advanced software to simulate different scenarios and stress tests on the skeleton hull to ensure it meets safety standards.In recent years, the use of computer-aided design (CAD) has revolutionized the way skeleton hulls are created. CAD software allows designers to create intricate models and visualize the final product before any physical construction begins. This technological advancement has led to more efficient designs and reduced construction times, ultimately lowering costs for shipbuilders.Furthermore, the environmental impact of shipbuilding has become a significant concern. The design of a skeleton hull can influence the overall energy efficiency of the vessel. By optimizing the shape and reducing unnecessary weight, engineers can create ships that consume less fuel and produce fewer emissions. This focus on sustainability is becoming increasingly important in the maritime industry as regulations tighten and public awareness grows.In conclusion, the skeleton hull is a fundamental aspect of shipbuilding that encompasses various engineering principles and design considerations. It serves as the foundation upon which a vessel is built, influencing its performance, safety, and environmental impact. As technology continues to advance, the methods used to design and construct skeleton hulls will likely evolve, leading to even more innovative and sustainable solutions in the maritime field. Understanding the importance of the skeleton hull is essential for anyone interested in marine engineering and ship design.

“骨架船体”的概念通常在造船和海洋工程的背景下讨论。“骨架船体”指的是在船只完全覆盖金属或玻璃纤维等材料之前的框架或结构。这一建设初始阶段至关重要，因为它决定了船舶的强度、稳定性和整体设计。“骨架船体”作为船只的支柱，提供了必要的支持和形状。当工程师设计“骨架船体”时，他们必须考虑各种因素，包括船只的预期用途、可用材料以及它将面临的环境条件。例如，货船可能需要与豪华游艇不同的“骨架船体”设计。重量分布、浮力和抗波浪能力都是在这个阶段需要仔细考虑的关键元素。构建“骨架船体”的一个优势是，它允许更容易的修改和调整。在建设的早期阶段，工程师可以测试结构的完整性，并根据需要进行更改，而无需承担重大成本。这种灵活性在现代造船中尤为重要，因为技术和设计偏好迅速发展。此外，“骨架船体”在确保船舶安全方面也起着至关重要的作用。良好设计的框架能够承受恶劣的海洋和不利天气条件，保护船只及其船员。工程师经常使用先进的软件来模拟不同场景和对“骨架船体”的压力测试，以确保其符合安全标准。近年来，计算机辅助设计（CAD）的使用彻底改变了“骨架船体”的创建方式。CAD软件使设计师能够创建复杂的模型并在任何物理建设开始之前可视化最终产品。这一技术进步导致了更高效的设计和缩短的建设时间，最终降低了造船商的成本。此外，造船的环境影响已成为一个重要问题。“骨架船体”的设计可以影响船舶的整体能源效率。通过优化形状和减少不必要的重量，工程师可以打造出消耗更少燃料和产生更少排放的船只。随着法规的收紧和公众意识的提高，这种对可持续性的关注在海事行业变得越来越重要。总之，“骨架船体”是造船的一个基本方面，涵盖了各种工程原则和设计考虑。它作为船舶建造的基础，影响着其性能、安全性和环境影响。随着技术的不断进步，用于设计和建造“骨架船体”的方法可能会不断演变，从而在海事领域带来更具创新性和可持续性的解决方案。理解“骨架船体”的重要性对于任何对海洋工程和船舶设计感兴趣的人来说都是至关重要的。