full scantling

简明释义

全实船

英英释义

例句

1.The contractor assured us that the beams were built to full scantling to support heavy loads.

承包商向我们保证，这些梁是按照全尺寸建造的，以支撑重负荷。

2.The ship was constructed using a hull of full scantling to ensure maximum strength and durability.

这艘船的船体采用了全尺寸的结构，以确保最大强度和耐用性。

3.For this project, we need to adhere to the full scantling specifications outlined in the design documents.

对于这个项目，我们需要遵循设计文件中列出的全尺寸规格。

4.Using full scantling materials is essential for the longevity of the structure.

使用全尺寸材料对于结构的耐久性至关重要。

5.During the inspection, the engineer confirmed that the materials met the full scantling requirements for safety.

在检查中，工程师确认材料符合安全的全尺寸要求。

作文

In the world of engineering and construction, precise terminology is essential for effective communication. One such term that often arises in discussions about structural integrity and design specifications is full scantling. The phrase full scantling refers to the complete dimensions or measurements of a structural element, particularly in the context of shipbuilding or architectural design. Understanding this term is crucial for professionals who aim to ensure that their projects meet safety standards and performance expectations.When we talk about full scantling, we are primarily discussing the full range of dimensions that a structural component must adhere to in order to function correctly under various loads and conditions. For instance, in shipbuilding, the full scantling of a vessel's hull includes not only its thickness but also its breadth, length, and the materials used. This comprehensive approach ensures that the ship can withstand the forces exerted by water, wind, and cargo, ultimately contributing to its seaworthiness.The importance of adhering to full scantling specifications cannot be overstated. Inadequate measurements can lead to catastrophic failures, resulting in loss of life, financial ruin, and environmental disasters. For example, if a ship is constructed without following the prescribed full scantling guidelines, it may be prone to capsizing or sinking under heavy loads. Thus, engineers and architects must rigorously calculate and verify all aspects of their designs to align with the defined full scantling requirements.Moreover, the concept of full scantling extends beyond just physical dimensions; it encompasses the overall design philosophy and material selection as well. Different materials possess varied strengths, flexibilities, and resistance to environmental factors. Therefore, understanding how these materials interact with the full scantling dimensions is vital for ensuring long-term durability and reliability. For instance, using lightweight materials in a design that requires heavy full scantling specifications could compromise the structure’s integrity, leading to potential failures.In addition to its technical implications, the term full scantling also carries significant economic weight. Construction projects that adhere strictly to full scantling specifications are less likely to encounter costly redesigns or repairs. By investing time and resources into accurately determining the full scantling from the outset, companies can avoid the pitfalls of budget overruns and project delays, thus enhancing their overall efficiency and profitability.Furthermore, the evolving landscape of technology in construction has introduced advanced modeling and simulation tools that help engineers visualize and analyze the full scantling of their designs. These tools enable professionals to experiment with different configurations and materials, optimizing their designs before any physical construction begins. As a result, the industry is moving toward a more data-driven approach where full scantling can be fine-tuned to achieve maximum performance while minimizing costs.In conclusion, the term full scantling is more than just a technical specification; it represents a holistic approach to design and construction that prioritizes safety, efficiency, and sustainability. Whether in shipbuilding or architectural design, understanding and applying the principles of full scantling is essential for creating structures that can withstand the test of time. As the field continues to evolve, staying informed about such terms will empower professionals to make better decisions and contribute to safer, more reliable constructions in the future.

在工程和建筑的世界中，精确的术语对于有效沟通至关重要。一个经常在讨论结构完整性和设计规格时出现的术语是full scantling。这个短语full scantling指的是结构元素的完整尺寸或测量，特别是在船舶建造或建筑设计的背景下。理解这个术语对于旨在确保其项目符合安全标准和性能期望的专业人士至关重要。当我们谈论full scantling时，我们主要讨论的是结构组件必须遵循的全方位尺寸，以便在各种负载和条件下正常工作。例如，在船舶建造中，船体的full scantling不仅包括其厚度，还包括其宽度、长度和所用材料。这种全面的方法确保船只能够承受水、风和货物施加的力量，最终有助于其适航性。遵循full scantling规格的重要性不容小觑。不充分的测量可能导致灾难性的失败，造成生命损失、财务破产和环境灾难。例如，如果一艘船在建造时未遵循规定的full scantling指南，它可能会在重负荷下倾覆或沉没。因此，工程师和建筑师必须严格计算和验证其设计的所有方面，以符合定义的full scantling要求。此外，full scantling的概念不仅限于物理尺寸；它还包括整体设计理念和材料选择。不同的材料具有不同的强度、柔韧性和对环境因素的抵抗力。因此，理解这些材料与full scantling尺寸之间的相互作用对于确保长期耐用性和可靠性至关重要。例如，在需要重型full scantling规格的设计中使用轻质材料可能会妨碍结构的完整性，导致潜在的故障。除了技术含义外，术语full scantling还具有重要的经济意义。严格遵循full scantling规格的建筑项目不太可能遇到昂贵的重新设计或修复。通过从一开始就投入时间和资源准确确定full scantling，公司可以避免预算超支和项目延误的陷阱，从而提高整体效率和盈利能力。此外，建筑行业不断发展的技术景观引入了先进的建模和仿真工具，帮助工程师可视化和分析其设计的full scantling。这些工具使专业人员能够尝试不同的配置和材料，从而在任何实际施工之前优化其设计。因此，该行业正朝着一种更加数据驱动的方法发展，在这种方法中，full scantling可以被微调，以实现最大性能，同时最小化成本。总之，术语full scantling不仅仅是一个技术规格；它代表了一种整体的设计和建筑方法，优先考虑安全、效率和可持续性。无论是在船舶建造还是建筑设计中，理解和应用full scantling原则对于创造能够经受时间考验的结构至关重要。随着这一领域的不断发展，了解此类术语将使专业人士能够做出更好的决策，为未来更安全、更可靠的建筑贡献力量。