turbulent contact absorber

简明释义

湍流接触吸收器

英英释义

例句

1.Researchers are exploring the use of a turbulent contact absorber in marine applications to reduce wave impacts.

研究人员正在探索在海洋应用中使用湍流接触吸收器以减少波浪冲击。

2.Engineers tested the turbulent contact absorber in various conditions to ensure its effectiveness in high-speed scenarios.

工程师在各种条件下测试了湍流接触吸收器，以确保其在高速场景中的有效性。

3.The design of the new aircraft incorporates a turbulent contact absorber, which significantly reduces cabin noise.

新飞机的设计中包含了一个湍流接触吸收器，显著降低了机舱噪音。

4.In automotive engineering, the turbulent contact absorber helps in managing vibrations during acceleration.

在汽车工程中，湍流接触吸收器有助于在加速过程中管理振动。

5.A turbulent contact absorber can enhance the stability of fluid systems by dampening oscillations.

湍流接触吸收器可以通过减弱振荡来增强流体系统的稳定性。

作文

In the realm of engineering and physics, the concept of a turbulent contact absorber plays a crucial role in understanding how systems interact with chaotic forces. To begin with, let us break down the term itself. A turbulent contact absorber refers to a device or mechanism designed to mitigate the effects of turbulence during physical interactions. This can be particularly important in various applications, such as aerospace engineering, automotive design, and even civil engineering when considering the structural integrity of buildings exposed to wind and seismic activities.Turbulence is characterized by chaotic, unpredictable flows of fluid or air, which can lead to increased stress and strain on structures or moving objects. For instance, an aircraft flying through turbulent air may experience significant fluctuations in lift and drag forces. Here, a turbulent contact absorber can come into play by absorbing these sudden changes in force, thereby enhancing stability and safety.The design of a turbulent contact absorber often involves advanced materials and engineering techniques aimed at optimizing performance under dynamic conditions. Engineers must consider factors such as material elasticity, energy dissipation capabilities, and the overall geometry of the absorber to ensure it can effectively counteract the forces generated by turbulence. One common example of such technology is found in shock absorbers used in vehicles, which are designed to absorb bumps and jolts from the road, but with a specific focus on handling turbulent forces that arise during high-speed maneuvers.Moreover, the application of a turbulent contact absorber extends beyond just mechanical systems. In the field of fluid dynamics, researchers study how these absorbers can be utilized to control flow patterns and reduce drag on surfaces, leading to improved efficiency in transportation systems. For instance, in marine engineering, ships equipped with turbulent contact absorbers can navigate rough waters more smoothly, reducing fuel consumption and enhancing passenger comfort.The implications of using a turbulent contact absorber are vast, impacting not only the performance of vehicles and aircraft but also influencing environmental factors. By improving the efficiency of travel and transport, we can potentially reduce emissions associated with fuel consumption, contributing to a more sustainable future. Additionally, the research and development of these absorbers continue to evolve, pushing the boundaries of what is possible in engineering and materials science.In conclusion, the turbulent contact absorber serves as a vital component in managing the challenges posed by turbulence in various fields. Its ability to absorb and dissipate energy from chaotic forces enhances the safety and efficiency of numerous applications. As technology advances, the potential for improved designs and materials continues to grow, promising a future where we can better harness the power of turbulence rather than merely withstand it.

在工程和物理学的领域中，turbulent contact absorber（湍流接触吸收器）的概念在理解系统如何与混沌力量相互作用方面发挥着至关重要的作用。首先，让我们拆解一下这个术语本身。turbulent contact absorber指的是一种装置或机制，旨在减轻物理交互过程中湍流的影响。这在航空工程、汽车设计甚至土木工程等各种应用中尤为重要，因为这些领域需要考虑到暴露于风和地震活动中的建筑物的结构完整性。湍流的特点是流体或空气的混乱、不确定流动，这可能导致对结构或移动物体施加更大的应力和变形。例如，一架飞机飞过湍流空气时，可能会经历升力和阻力的显著波动。在这种情况下，turbulent contact absorber可以发挥作用，吸收这些突发的力量变化，从而增强稳定性和安全性。turbulent contact absorber的设计通常涉及先进材料和工程技术，旨在优化动态条件下的性能。工程师必须考虑材料的弹性、能量耗散能力以及吸收器的整体几何形状，以确保其能够有效抵消湍流产生的力量。一种常见的此类技术的例子是在车辆中使用的减震器，这些减震器旨在吸收来自路面的颠簸和冲击，但特别关注处理在高速机动过程中产生的湍流力量。此外，turbulent contact absorber的应用不仅限于机械系统。在流体动力学领域，研究人员研究这些吸收器如何被利用来控制流动模式并减少表面的阻力，从而提高交通系统的效率。例如，在海洋工程中，配备有turbulent contact absorbers的船只可以更顺利地在恶劣水域中航行，减少燃料消耗并增强乘客的舒适度。使用turbulent contact absorber的影响是广泛的，不仅影响车辆和飞机的性能，还影响环境因素。通过提高旅行和运输的效率，我们有可能减少与燃料消耗相关的排放，为更可持续的未来做出贡献。此外，这些吸收器的研究和开发仍在不断演进，推动着工程和材料科学的可能性边界。总之，turbulent contact absorber作为管理各个领域湍流所带来的挑战的重要组成部分，其吸收和耗散混乱力量的能力增强了众多应用的安全性和效率。随着技术的进步，改善设计和材料的潜力也在不断增长，承诺着一个我们可以更好地利用湍流的未来，而不仅仅是承受它。