design throat thickness

简明释义

焊缝设计厚度

英英释义

例句

1.Adjusting the design throat thickness can significantly impact the performance of the turbine.

调整设计喉部厚度可以显著影响涡轮的性能。

2.The team recommended increasing the design throat thickness to enhance durability under high pressure.

团队建议增加设计喉部厚度以增强高压下的耐用性。

3.The engineers had to carefully calculate the design throat thickness to ensure optimal airflow in the new engine.

工程师们必须仔细计算设计喉部厚度以确保新发动机的最佳气流。

4.In our CAD model, we need to specify the design throat thickness for accurate simulations.

在我们的CAD模型中，我们需要指定设计喉部厚度以便进行准确的模拟。

5.During the prototype phase, we realized that the design throat thickness was too thin, causing structural issues.

在原型阶段，我们意识到设计喉部厚度太薄，导致结构问题。

作文

In the field of engineering and design, the term design throat thickness refers to the specific measurement of the narrowest part of a component, particularly in structures that require precise load-bearing capabilities. This concept is crucial when designing elements such as beams, columns, or even intricate parts of machinery. Understanding the design throat thickness is essential for ensuring that a structure can withstand the forces applied to it without failing.The importance of design throat thickness cannot be overstated. It plays a significant role in determining the overall strength and stability of a design. For instance, if the throat thickness is too thin, the component may buckle or break under stress. Conversely, if it is too thick, it could lead to unnecessary weight and material costs. Therefore, engineers must carefully calculate the appropriate thickness based on the expected loads and the material properties.When designing a new product or structure, engineers often use computer-aided design (CAD) software to model their ideas. These tools allow for precise adjustments to dimensions, including the design throat thickness. By simulating different load scenarios, engineers can optimize the throat thickness to achieve the best balance between strength and efficiency.Moreover, the design throat thickness also influences other factors such as thermal expansion, vibrations, and fatigue over time. For example, in aerospace applications, where components are subjected to extreme conditions, the throat thickness must be designed meticulously to account for these variables. A well-designed throat thickness can enhance the lifespan of a component and improve safety.Additionally, regulatory standards often dictate the minimum requirements for design throat thickness in various industries. Engineers must stay informed about these regulations to ensure compliance and avoid potential legal issues. This aspect of design not only focuses on performance but also on safety and reliability, which are paramount in sectors like construction and manufacturing.In conclusion, the concept of design throat thickness is a fundamental aspect of engineering design that requires careful consideration. It impacts the strength, weight, cost, and longevity of a component. By leveraging modern design tools and adhering to industry standards, engineers can effectively determine the optimal throat thickness necessary for their projects. Ultimately, understanding and mastering the design throat thickness is vital for anyone involved in the engineering and design fields, as it directly affects the success and safety of their creations.

在工程和设计领域，术语设计喉部厚度指的是组件最狭窄部分的特定测量，特别是在需要精确承载能力的结构中。这个概念在设计梁、柱或甚至复杂的机械部件时至关重要。理解设计喉部厚度对于确保结构能够承受施加的力量而不发生故障是非常重要的。设计喉部厚度的重要性不容小觑。它在确定设计的整体强度和稳定性方面发挥着重要作用。例如，如果喉部厚度太薄，组件可能会在压力下弯曲或断裂。相反，如果它太厚，可能导致不必要的重量和材料成本。因此，工程师必须根据预期负荷和材料特性仔细计算适当的厚度。在设计新产品或结构时，工程师通常使用计算机辅助设计（CAD）软件来建模他们的想法。这些工具允许对尺寸进行精确调整，包括设计喉部厚度。通过模拟不同的负载场景，工程师可以优化喉部厚度，以实现强度和效率之间的最佳平衡。此外，设计喉部厚度还影响其他因素，如热膨胀、振动和随时间的疲劳。例如，在航空航天应用中，组件会遭受极端条件，因此喉部厚度必须经过精心设计以考虑这些变量。设计良好的喉部厚度可以增强组件的使用寿命并提高安全性。此外，监管标准通常规定了各行业中设计喉部厚度的最低要求。工程师必须保持对这些法规的了解，以确保合规并避免潜在的法律问题。设计的这一方面不仅关注性能，还关注安全性和可靠性，这在建筑和制造等行业中至关重要。总之，设计喉部厚度的概念是工程设计的基本方面，需要仔细考虑。它影响组件的强度、重量、成本和寿命。通过利用现代设计工具并遵循行业标准，工程师可以有效确定其项目所需的最佳喉部厚度。最终，理解和掌握设计喉部厚度对于任何参与工程和设计领域的人来说都是至关重要的，因为它直接影响到他们创造的成功与安全。