chordal thickness

简明释义

弦齿厚

英英释义

例句

1.An increase in chordal thickness can indicate potential heart issues that need further investigation.

增加的弦厚度可能表明潜在的心脏问题，需要进一步调查。

2.The study focused on the relationship between chordal thickness and the mechanical properties of heart tissues.

这项研究集中于弦厚度与心脏组织机械性能之间的关系。

3.The surgeon measured the chordal thickness to ensure proper valve function during the procedure.

外科医生测量了弦厚度以确保手术过程中的瓣膜功能正常。

4.Patients with thicker chordal thickness may experience different symptoms compared to those with normal measurements.

与正常测量值相比，弦厚度较厚的患者可能会出现不同的症状。

5.In echocardiography, the chordal thickness is crucial for assessing the integrity of the heart valves.

在超声心动图中，弦厚度对于评估心脏瓣膜的完整性至关重要。

作文

In the field of structural engineering and materials science, understanding the properties of various components is essential for ensuring safety and functionality. One such property that engineers frequently analyze is the chordal thickness, which refers to the thickness of the chord members in a structural framework, especially in trusses and frames. The chordal thickness plays a critical role in determining the overall strength and stability of the structure. When designing a truss, for instance, engineers must consider the loads that will be applied to it, including dead loads, live loads, and environmental factors like wind and snow. The chordal thickness contributes significantly to how well the truss can distribute these loads across its members. A thicker chord can typically handle greater forces without failing, which is why engineers often conduct detailed calculations to determine the optimal chordal thickness for a given application.Moreover, the choice of materials also influences the effective chordal thickness. Different materials have varying strengths and weights, which means that a thicker chord made from a lighter material might perform better than a thinner one made from a heavier material. This interplay between material properties and chordal thickness is a fundamental consideration that engineers must navigate during the design process.Another important aspect related to chordal thickness is its impact on the overall aesthetics of a structure. While functionality and safety are paramount, visual appeal cannot be overlooked. A truss with overly thick chords might appear bulky and unrefined, whereas one with an appropriate chordal thickness can maintain both strength and elegance. Therefore, architects and engineers often collaborate closely to achieve a balance between these competing demands.Furthermore, advancements in technology have enabled more precise measurements and simulations, allowing for better optimization of chordal thickness. Computer-aided design (CAD) software can model the behavior of structures under various conditions, helping engineers to visualize how changes in chordal thickness affect performance. This technological integration has revolutionized the way structures are designed and built, making it easier to ensure that they meet safety standards while also being cost-effective.In conclusion, the concept of chordal thickness is vital in structural engineering. It influences not only the strength and stability of structures but also their aesthetic qualities. As engineers continue to innovate and improve design techniques, the importance of accurately determining the appropriate chordal thickness will remain a key factor in creating safe, functional, and visually appealing structures. Understanding the implications of chordal thickness is essential for anyone involved in the design and construction of buildings and other infrastructures.

在结构工程和材料科学领域，理解各种组件的特性对于确保安全性和功能性至关重要。其中，工程师经常分析的一个特性是弦厚度，它指的是结构框架中弦杆的厚度，特别是在桁架和框架中。弦厚度在确定结构的整体强度和稳定性方面起着关键作用。例如，在设计桁架时，工程师必须考虑施加于其上的荷载，包括永久荷载、活荷载和环境因素，如风雪。弦厚度对桁架如何在其构件之间分配这些荷载有着重要影响。较厚的弦杆通常可以承受更大的力而不发生失效，这也是工程师通常进行详细计算以确定特定应用中最佳弦厚度的原因。此外，材料的选择也会影响有效的弦厚度。不同材料具有不同的强度和重量，这意味着用较轻材料制成的较厚弦杆可能比用较重材料制成的较薄弦杆表现更好。这种材料特性与弦厚度之间的相互作用是工程师在设计过程中必须应对的基本考虑。与弦厚度相关的另一个重要方面是它对结构整体美学的影响。虽然功能性和安全性是首要任务，但视觉吸引力也不能被忽视。弦杆过厚的桁架可能显得笨重且不精致，而适当的弦厚度则可以保持强度与优雅。因此，建筑师和工程师通常紧密合作，以实现这些竞争需求之间的平衡。此外，技术的进步使得更精确的测量和模拟成为可能，从而更好地优化弦厚度。计算机辅助设计（CAD）软件可以模拟结构在各种条件下的行为，帮助工程师可视化改变弦厚度如何影响性能。这种技术整合彻底改变了结构的设计和建造方式，使确保它们符合安全标准同时又具成本效益变得更加容易。总之，弦厚度的概念在结构工程中至关重要。它不仅影响结构的强度和稳定性，还影响其美观特质。随着工程师不断创新和改进设计技术，准确确定适当的弦厚度的重要性将继续成为创造安全、功能齐全且视觉吸引力强的结构的关键因素。理解弦厚度的含义对于任何参与建筑和其他基础设施设计与建造的人来说都是必不可少的。