static calculation

简明释义

静力计算

英英释义

例句

1.Before construction begins, a static calculation is essential to ensure safety.

在施工开始之前，进行静态计算是确保安全的必要步骤。

2.The architect provided a detailed report including static calculations for the building's structure.

建筑师提供了一份详细报告，其中包括建筑结构的静态计算。

3.The software can automate static calculations for various engineering applications.

该软件可以自动化各种工程应用的静态计算。

4.For this project, we need to submit our static calculations to the regulatory body for approval.

对于这个项目，我们需要将我们的静态计算提交给监管机构以获得批准。

5.The engineer performed a static calculation to determine the load-bearing capacity of the bridge.

工程师进行了静态计算以确定桥梁的承载能力。

作文

In the field of engineering and architecture, the term static calculation refers to the process of determining the forces and stresses acting on a structure that is not in motion. This is a critical aspect of structural design as it ensures that buildings and other constructions can withstand various loads without collapsing or experiencing significant deformation. The importance of static calculation cannot be overstated; it is foundational to safe and effective engineering practices.When engineers conduct static calculation, they analyze the loads that a structure will encounter during its lifetime. These loads can include dead loads, which are the weight of the structure itself, live loads, which are the weights of occupants and furniture, and environmental loads such as wind, snow, and seismic activity. By understanding these forces, engineers can design structures that are not only functional but also safe for use.One of the key components of static calculation is the use of mathematical models and simulations. Engineers often employ software tools that allow them to visualize how different loads will affect a structure. These tools can simulate various scenarios, helping engineers identify potential weaknesses in their designs. For example, if a building is located in an area prone to earthquakes, the static calculation must take into account the additional forces that will be applied during seismic events.Additionally, static calculation involves the application of various physical laws, including Newton's laws of motion and principles of equilibrium. Engineers must ensure that the sum of all forces acting on a structure is equal to zero, meaning that the structure is in a state of equilibrium. This principle is crucial because any imbalance can lead to failure, resulting in catastrophic consequences.Another important aspect of static calculation is material selection. Different materials have varying strengths and weaknesses, and understanding these properties is essential for accurate calculations. For instance, steel has a high tensile strength, making it suitable for skyscrapers, while wood may be more appropriate for residential homes. Engineers must consider the material's behavior under different loading conditions, which further complicates the static calculation process.Furthermore, regulations and building codes play a significant role in static calculation. Governments and local authorities set standards that structures must meet to ensure public safety. Engineers must be well-versed in these regulations to ensure compliance. Failure to adhere to these codes can result in legal issues, financial loss, and most importantly, endanger lives.In conclusion, static calculation is a vital process in the fields of engineering and architecture that ensures the safety and stability of structures. By analyzing the various forces acting on a building, utilizing advanced modeling techniques, applying physical laws, selecting appropriate materials, and adhering to regulations, engineers can create designs that are not only innovative but also safe for public use. As we continue to push the boundaries of architectural design, the role of static calculation will remain indispensable in ensuring that our structures stand the test of time and nature.

在工程和建筑领域，术语static calculation指的是确定作用于不动结构的力和应力的过程。这是结构设计的一个关键方面，因为它确保建筑物和其他建筑能够承受各种负荷而不会倒塌或经历显著变形。static calculation的重要性不容小觑；它是安全和有效工程实践的基础。当工程师进行static calculation时，他们会分析结构在其生命周期内将遇到的负荷。这些负荷可以包括死载，即结构本身的重量，活载，即居住者和家具的重量，以及环境负荷，如风、雪和地震活动。通过理解这些力量，工程师可以设计出不仅功能齐全而且安全的结构。static calculation的一个关键组成部分是使用数学模型和模拟。工程师通常会使用软件工具，使他们能够可视化不同负荷如何影响结构。这些工具可以模拟各种场景，帮助工程师识别设计中的潜在弱点。例如，如果一座建筑位于地震频发的地区，则static calculation必须考虑地震事件期间施加的额外力量。此外，static calculation涉及应用各种物理定律，包括牛顿运动定律和平衡原理。工程师必须确保作用于结构上的所有力的总和等于零，这意味着结构处于平衡状态。这个原则至关重要，因为任何不平衡都可能导致失败，从而导致灾难性后果。static calculation的另一个重要方面是材料选择。不同材料具有不同的强度和弱点，理解这些特性对于准确计算至关重要。例如，钢材具有高抗拉强度，适合用于摩天大楼，而木材可能更适合用于住宅。工程师必须考虑材料在不同加载条件下的行为，这进一步复杂化了static calculation过程。此外，法规和建筑规范在static calculation中也发挥着重要作用。政府和地方当局设定标准，建筑物必须符合这些标准以确保公共安全。工程师必须精通这些法规，以确保合规。不遵守这些规范可能会导致法律问题、经济损失，更重要的是，危及生命。总之，static calculation是工程和建筑领域中的一个重要过程，确保结构的安全性和稳定性。通过分析作用于建筑的各种力量，利用先进的建模技术，应用物理定律，选择合适的材料，并遵循法规，工程师可以创造出不仅创新而且安全的设计。随着我们不断推动建筑设计的界限，static calculation的角色将始终不可或缺，以确保我们的结构经得起时间和自然的考验。