transversal stress
简明释义
横向应力
英英释义
例句
1.The analysis revealed that the transversal stress was higher than expected due to design flaws.
分析显示,由于设计缺陷,横向应力高于预期。
2.The engineer measured the transversal stress in the beam to ensure it could support the load safely.
工程师测量了梁中的横向应力以确保它能安全承载负荷。
3.To minimize transversal stress, we reinforced the structure with additional supports.
为了最小化横向应力,我们用额外的支撑加固了结构。
4.High levels of transversal stress can lead to material failure in structural components.
高水平的横向应力可能导致结构部件的材料失效。
5.During the testing phase, we observed significant transversal stress on the joints.
在测试阶段,我们观察到接头上有显著的横向应力。
作文
Transversal stress is a crucial concept in the field of engineering and materials science. It refers to the stress that acts perpendicular to the longitudinal axis of a material or structure. Understanding transversal stress (横向应力) is essential for engineers when designing structures that must withstand various forces. For instance, when a beam is subjected to bending, it experiences different types of stress along its length. The top fibers of the beam may experience compressive stress, while the bottom fibers experience tensile stress. However, the sides of the beam will experience transversal stress (横向应力) due to the bending action.In practical applications, consider a bridge that is designed to support heavy traffic loads. Engineers must take into account not only the vertical loads but also the lateral forces that can cause transversal stress (横向应力) in the bridge's components. If these stresses are not adequately addressed, it could lead to structural failures. This is why calculations involving transversal stress (横向应力) are integral to the design process.Moreover, transversal stress (横向应力) plays a significant role in the analysis of materials under various loading conditions. When materials are subjected to forces, they deform, and this deformation leads to stress distribution within the material. Engineers use various methods, such as finite element analysis, to predict how transversal stress (横向应力) will affect the integrity of a structure over time. This predictive capability allows for safer and more efficient designs.In addition to structural engineering, transversal stress (横向应力) is also relevant in fields such as geotechnical engineering. For example, soil mechanics involves understanding how soil behaves under load, including the transversal stress (横向应力) exerted by the weight of structures built on top of it. Proper analysis ensures that foundations are stable and can support the intended loads without excessive settlement or failure.As our understanding of materials and their behaviors continues to evolve, the importance of transversal stress (横向应力) cannot be overstated. Engineers must remain vigilant in their calculations and considerations to ensure that all aspects of stress—longitudinal, transverse, and shear—are accounted for in their designs. This holistic approach to engineering design not only enhances safety but also contributes to the longevity and sustainability of structures.In conclusion, transversal stress (横向应力) is a fundamental aspect of engineering that affects the performance and safety of structures. By comprehensively studying and applying the principles surrounding transversal stress (横向应力), engineers can create more resilient and effective designs. As we push the boundaries of technology and innovation, the careful consideration of transversal stress (横向应力) will remain a cornerstone of successful engineering practice.
横向应力是工程和材料科学领域中的一个关键概念。它指的是作用于材料或结构的纵向轴线的垂直应力。理解横向应力(transversal stress)对工程师在设计必须承受各种力量的结构时至关重要。例如,当一根梁受到弯曲时,它会沿其长度经历不同类型的应力。梁的顶部纤维可能会经历压应力,而底部纤维则经历拉应力。然而,由于弯曲作用,梁的侧面将经历横向应力(transversal stress)。在实际应用中,考虑一个设计用于支撑重型交通负荷的桥梁。工程师必须考虑不仅是垂直荷载,还有可能导致桥梁组件中产生横向应力(transversal stress)的横向力量。如果这些应力没有得到充分处理,可能会导致结构失效。这就是为什么涉及横向应力(transversal stress)的计算在设计过程中不可或缺。此外,横向应力(transversal stress)在分析不同加载条件下的材料时也起着重要作用。当材料受到力的作用时,它们会发生变形,这种变形导致材料内部的应力分布。工程师使用各种方法,例如有限元分析,来预测横向应力(transversal stress)将如何影响结构的完整性。这种预测能力使得设计更加安全和高效。除了结构工程,横向应力(transversal stress)在岩土工程等领域也相关。例如,土壤力学涉及理解土壤在负荷下的行为,包括由其上方建筑物的重量施加的横向应力(transversal stress)。适当的分析确保基础是稳定的,可以支持预期的荷载,而不会出现过度沉降或失效。随着我们对材料及其行为的理解不断发展,横向应力(transversal stress)的重要性不容忽视。工程师必须在计算和考虑中保持警惕,以确保所有应力方面——纵向、横向和剪切——都在他们的设计中得到考虑。这种全面的工程设计方法不仅增强了安全性,还促进了结构的耐久性和可持续性。总之,横向应力(transversal stress)是影响结构性能和安全性的工程基本方面。通过全面研究和应用围绕横向应力(transversal stress)的原理,工程师可以创造出更具韧性和有效的设计。随着我们推动技术和创新的边界,仔细考虑横向应力(transversal stress)将始终是成功工程实践的基石。
