computed stress
简明释义
计算应力
英英释义
例句
1.To optimize the design, we need to analyze the computed stress 计算应力 distribution across the beam.
为了优化设计,我们需要分析梁上computed stress 计算应力 的分布。
2.The computed stress 计算应力 results were higher than expected, prompting further investigation.
结果显示computed stress 计算应力 超过预期,这促使我们进一步调查。
3.In our simulation, the computed stress 计算应力 values indicated potential failure points in the structure.
在我们的模拟中,computed stress 计算应力 值显示了结构中的潜在失效点。
4.The software provides a detailed report on computed stress 计算应力 for various load conditions.
该软件提供了不同载荷条件下的computed stress 计算应力的详细报告。
5.The engineer calculated the computed stress 计算应力 on the bridge to ensure it could support heavy traffic.
工程师计算了桥梁上的computed stress 计算应力,以确保它能够承受重型交通。
作文
In engineering and material science, the term computed stress refers to the calculated internal forces that develop within a material when it is subjected to external loads. Understanding computed stress is crucial for designing safe and efficient structures, as it helps engineers predict how materials will behave under various conditions. For instance, when a bridge is built, engineers must calculate the computed stress on different components to ensure they can withstand the weight of vehicles and other loads without failing. The process of determining computed stress typically involves mathematical modeling and simulations. Engineers use software tools to analyze the physical properties of materials and the forces acting upon them. By inputting data such as material strength, load conditions, and geometry, they can derive the computed stress values. These calculations are essential for ensuring that the design meets safety standards and performs reliably over time.Moreover, computed stress is not only relevant in large-scale engineering projects, but also in everyday applications. For example, in the field of biomechanics, researchers may calculate the computed stress on bones and tissues to better understand how they respond to physical activity. This knowledge can inform medical treatments and rehabilitation strategies, highlighting the importance of computed stress in both engineering and health sciences.Furthermore, the concept of computed stress also extends to various industries, including aerospace, automotive, and construction. In aerospace engineering, for instance, the computed stress on aircraft wings is critical for performance and safety during flight. Engineers must ensure that the wings can endure the aerodynamic forces while maintaining structural integrity. Similarly, in the automotive industry, calculating the computed stress on vehicle frames can help manufacturers create safer and more durable cars.In conclusion, computed stress is a fundamental concept in engineering that plays a vital role in ensuring the safety and functionality of structures and materials. Through careful calculations and simulations, engineers can predict how materials will react under various conditions, which is essential for effective design and implementation. As technology advances, the methods for calculating computed stress continue to evolve, allowing for even more accurate and efficient designs across multiple fields. The significance of computed stress cannot be overstated, as it directly impacts the reliability and safety of countless products and structures we encounter in our daily lives.
在工程和材料科学中,术语计算应力指的是当材料受到外部载荷时,在其内部产生的计算内力。理解计算应力对设计安全高效的结构至关重要,因为它帮助工程师预测材料在各种条件下的行为。例如,当建造一座桥梁时,工程师必须计算不同部件上的计算应力,以确保它们能够承受车辆和其他负载的重量而不发生失效。确定计算应力的过程通常涉及数学建模和模拟。工程师使用软件工具来分析材料的物理特性和作用在其上的力。通过输入材料强度、载荷条件和几何形状等数据,他们可以推导出计算应力值。这些计算对于确保设计符合安全标准并在时间上可靠地执行至关重要。此外,计算应力不仅与大型工程项目相关,也与日常应用有关。例如,在生物力学领域,研究人员可能会计算骨骼和组织上的计算应力,以更好地理解它们如何响应身体活动。这些知识可以为医疗治疗和康复策略提供信息,突显了计算应力在工程和健康科学中的重要性。此外,计算应力的概念还扩展到各个行业,包括航空航天、汽车和建筑。在航空航天工程中,例如,飞机机翼上的计算应力对于飞行中的性能和安全至关重要。工程师必须确保机翼能够承受气动力,同时保持结构完整性。同样,在汽车工业中,计算车辆框架上的计算应力可以帮助制造商创造更安全、更耐用的汽车。总之,计算应力是工程中的一个基本概念,在确保结构和材料的安全性和功能性方面发挥着至关重要的作用。通过仔细的计算和模拟,工程师可以预测材料在各种条件下的反应,这对有效的设计和实施至关重要。随着技术的进步,计算计算应力的方法不断演变,使得各个领域的设计更加准确和高效。计算应力的重要性不容小觑,因为它直接影响我们日常生活中遇到的无数产品和结构的可靠性和安全性。
相关单词
