shipbuilding method with allowable tolerences

简明释义

公差造船法

英英释义

例句

1.To comply with industry standards, the shipbuilding method with allowable tolerances was rigorously tested.

为了符合行业标准，具有允许公差的造船方法经过严格测试。

2.Using a shipbuilding method with allowable tolerances helps in reducing costs while maintaining structural integrity.

使用具有允许公差的造船方法有助于降低成本，同时保持结构完整性。

3.The team adopted a new shipbuilding method with allowable tolerances to improve efficiency and speed up production.

团队采用了一种新的具有允许公差的造船方法以提高效率并加快生产速度。

4.The shipbuilding method with allowable tolerances was crucial for the successful launch of the vessel.

对于船只的成功下水，具有允许公差的造船方法至关重要。

5.The engineer explained the shipbuilding method with allowable tolerances to ensure quality control during the construction process.

工程师解释了具有允许公差的造船方法以确保在施工过程中的质量控制。

作文

The maritime industry is a vital part of global trade and transportation, and the process of constructing ships is both an art and a science. One of the key aspects that ensures the quality and functionality of a ship is the shipbuilding method with allowable tolerances. This phrase refers to the techniques and standards used in ship construction that account for slight variations in measurements and materials, which are deemed acceptable within specific limits. Understanding this concept is crucial for anyone involved in ship design, engineering, or construction.To begin with, the shipbuilding method with allowable tolerances emphasizes the importance of precision in ship construction. Ships are complex structures that must withstand harsh marine environments. Therefore, every component, from the hull to the engine room, must be built with meticulous attention to detail. However, achieving absolute perfection in every measurement is nearly impossible due to factors such as material properties, environmental conditions, and human error. This is where the concept of allowable tolerances comes into play. It allows engineers and builders to work within a range of acceptable measurements, ensuring that even if some parts are slightly off, the overall integrity and performance of the ship remain intact.Moreover, the implementation of shipbuilding methods with allowable tolerances helps streamline the construction process. By establishing specific tolerances, shipbuilders can optimize their workflows, reduce waste, and enhance productivity. For instance, if a particular section of the ship has a tolerance of plus or minus five millimeters, builders can focus on completing the assembly without the constant pressure of achieving exact measurements. This flexibility not only saves time but also reduces costs, making shipbuilding more efficient and economically viable.In addition to efficiency, the shipbuilding method with allowable tolerances also plays a significant role in safety. Ships are subject to rigorous testing and inspections before they are deemed seaworthy. The use of allowable tolerances ensures that even if certain components do not meet the exact specifications, they can still perform safely under operational conditions. This is particularly important in critical areas such as structural integrity and stability. For example, if a ship's hull is constructed with a slight deviation in thickness, as long as it falls within the allowable tolerance, it can still provide adequate strength to withstand the forces of the sea.Furthermore, advances in technology have enhanced the application of shipbuilding methods with allowable tolerances. With the advent of computer-aided design (CAD) and sophisticated modeling software, shipbuilders can now simulate various scenarios and analyze how different tolerances affect the ship's performance. This data-driven approach allows for more informed decision-making and can lead to innovations in ship design and construction practices.In conclusion, the phrase shipbuilding method with allowable tolerances encapsulates a fundamental principle in the maritime industry that balances precision with practicality. By recognizing that slight variations are acceptable, shipbuilders can enhance efficiency, ensure safety, and leverage technological advancements. As the demand for ships continues to grow, understanding and applying these methods will be essential for the future of shipbuilding and maritime engineering. This concept not only fosters innovation but also contributes to the sustainability and resilience of the global shipping industry.

海洋产业是全球贸易和运输的重要组成部分，造船过程既是一门艺术，也是一门科学。确保船舶质量和功能的关键方面之一是具有允许公差的造船方法。这个短语指的是在船舶建造中使用的技术和标准，它们考虑到测量和材料的轻微变化，这些变化在特定范围内被认为是可接受的。理解这个概念对任何参与船舶设计、工程或建造的人来说都是至关重要的。首先，具有允许公差的造船方法强调了船舶建造中精确度的重要性。船舶是复杂的结构，必须承受恶劣的海洋环境。因此，从船体到发动机舱的每个组件都必须以极其细致的方式构建。然而，由于材料特性、环境条件和人为错误等因素，实现每个测量的绝对完美几乎是不可能的。这就是允许公差概念发挥作用的地方。它允许工程师和建造者在可接受的测量范围内工作，确保即使某些部分略有偏差，船舶的整体完整性和性能仍然保持不变。此外，实施具有允许公差的造船方法有助于简化建造过程。通过建立特定的公差，造船商可以优化工作流程，减少浪费，提高生产率。例如，如果船舶的某一部分公差为正负五毫米，建造者可以专注于完成组装，而不必时刻面临实现精确测量的压力。这种灵活性不仅节省了时间，还降低了成本，使造船更加高效和经济可行。除了效率之外，具有允许公差的造船方法在安全性方面也起着重要作用。船舶在被认为适航之前，必须经过严格的测试和检查。使用允许公差确保即使某些组件未达到确切规格，它们在操作条件下仍能安全运行。这在结构完整性和稳定性等关键领域尤为重要。例如，如果船舶的船体在厚度上存在轻微偏差，只要它在允许公差范围内，仍然可以提供足够的强度以承受海洋力量。此外，技术的进步增强了具有允许公差的造船方法的应用。随着计算机辅助设计（CAD）和先进建模软件的出现，造船商现在可以模拟各种场景，分析不同公差如何影响船舶的性能。这种数据驱动的方法允许更明智的决策，并可能导致船舶设计和建造实践的创新。总之，短语具有允许公差的造船方法概括了海洋产业中的一个基本原则，即在精确性与实用性之间取得平衡。通过认识到轻微变化是可以接受的，造船商可以提高效率，确保安全，并利用技术进步。随着对船舶需求的持续增长，理解和应用这些方法将对造船和海洋工程的未来至关重要。这个概念不仅促进了创新，还为全球航运业的可持续性和韧性做出了贡献。