no bond tensioning
简明释义
无粘结纲筋的后预应力
英英释义
例句
1.In this construction project, we decided on a design that allows for no bond tensioning 无粘结张拉 to simplify the process.
在这个建筑项目中,我们选择了一种设计,允许
2.When using pre-stressed concrete, our team opted for no bond tensioning 无粘结张拉 to enhance flexibility.
在使用预应力混凝土时,我们的团队选择了无粘结张拉以增强灵活性。
3.The contractor explained that no bond tensioning 无粘结张拉 is crucial in certain applications to prevent cracking.
承包商解释说,无粘结张拉在某些应用中至关重要,以防止开裂。
4.The engineer recommended no bond tensioning 无粘结张拉 to avoid complications with the concrete curing process.
工程师建议采用无粘结张拉以避免混凝土固化过程中的复杂情况。
5.For this bridge design, we implemented no bond tensioning 无粘结张拉 techniques to reduce maintenance costs.
对于这座桥的设计,我们实施了无粘结张拉技术,以降低维护成本。
作文
In the field of civil engineering, the concept of no bond tensioning is crucial for understanding how different materials interact under stress. Essentially, no bond tensioning refers to a situation where there is no adhesive or mechanical connection between two materials that would otherwise create tension. This phenomenon can be observed in various construction applications, particularly when dealing with concrete and steel reinforcements. When engineers design structures, they must consider how the materials will behave under various loads. For instance, in a reinforced concrete beam, the steel reinforcement bars are typically bonded to the concrete to enhance its tensile strength. However, in some cases, such as during the initial curing phase of concrete, the bond may not be fully developed. This leads to a state of no bond tensioning, where the steel does not effectively contribute to the load-bearing capacity of the concrete. The implications of no bond tensioning are significant. If engineers fail to account for this condition, it could result in structural failures or unexpected deformations. Therefore, understanding when and how no bond tensioning occurs is essential for ensuring the safety and longevity of structures. Moreover, no bond tensioning can also play a role in the design of prestressed concrete elements. In these cases, the tensioning of steel tendons is done before the concrete is cast. If the bond between the tendon and the concrete is not established properly, it may lead to a loss of efficiency in the prestressing process. This highlights the importance of achieving a good bond to prevent no bond tensioning from negatively impacting the structure's performance. In practical terms, engineers often conduct tests to assess the bonding characteristics of materials before finalizing their designs. These tests help identify potential issues related to no bond tensioning and allow for adjustments to be made. Additionally, advancements in material science have led to the development of new bonding agents and techniques that can mitigate the risks associated with no bond tensioning. In conclusion, the concept of no bond tensioning is an important consideration in civil engineering. It underscores the need for engineers to thoroughly understand material interactions and to ensure that proper bonding occurs during construction. By addressing the challenges posed by no bond tensioning, engineers can design safer and more effective structures that stand the test of time.
在土木工程领域,no bond tensioning的概念对于理解不同材料在应力下的相互作用至关重要。本质上,no bond tensioning指的是一种情况,其中两个材料之间没有粘合或机械连接,否则将产生张力。这种现象可以在各种建筑应用中观察到,特别是在处理混凝土和钢筋加固时。 当工程师设计结构时,必须考虑材料在各种负载下的行为。例如,在一个钢筋混凝土梁中,钢筋通常与混凝土结合,以增强其抗拉强度。然而,在某些情况下,例如在混凝土的初始固化阶段,结合可能尚未完全建立。这导致了no bond tensioning的状态,在这种状态下,钢材并未有效地贡献于混凝土的承载能力。 no bond tensioning的影响是显著的。如果工程师未能考虑这种情况,可能会导致结构失效或意外变形。因此,了解何时以及如何发生no bond tensioning对确保结构的安全性和耐久性至关重要。 此外,no bond tensioning在预应力混凝土构件的设计中也起着一定作用。在这些情况下,钢筋的张紧是在混凝土浇筑之前进行的。如果钢筋与混凝土之间的结合没有得到妥善建立,可能会导致预应力过程效率的降低。这突显了实现良好结合的重要性,以防止no bond tensioning对结构性能产生负面影响。 在实际操作中,工程师通常会进行测试,以评估材料的结合特性,然后再最终确定设计。这些测试有助于识别与no bond tensioning相关的潜在问题,并允许进行调整。此外,材料科学的进步导致新型粘合剂和技术的发展,可以减轻与no bond tensioning相关的风险。 总之,no bond tensioning的概念是土木工程中的一个重要考虑因素。它强调了工程师需要深入了解材料相互作用,并确保在施工过程中发生适当的结合。通过解决no bond tensioning所带来的挑战,工程师可以设计出更安全、更有效的结构,能够经受住时间的考验。
相关单词
