afterbody form

简明释义

后体线型

英英释义

例句

1.The designer emphasized the importance of the afterbody form in ensuring aerodynamic efficiency.

设计师强调了后体形状在确保气动效率方面的重要性。

2.In sailing, the shape of the hull's afterbody form can significantly affect performance.

在帆船中，船体的后体形状会显著影响性能。

3.A well-designed afterbody form can help reduce fuel consumption in cars.

一个设计良好的后体形状可以帮助减少汽车的燃油消耗。

4.Engineers are testing different afterbody forms to improve the vehicle's drag coefficient.

工程师正在测试不同的后体形状以改善车辆的阻力系数。

5.The afterbody form of the aircraft plays a crucial role in its stability during flight.

飞机的后体形状在飞行过程中对其稳定性起着至关重要的作用。

作文

In the realm of design and engineering, the term afterbody form refers to the shape and structure of the rear section of an object, particularly in vehicles such as cars, airplanes, and boats. This aspect of design is crucial because it significantly influences the performance, aerodynamics, and overall efficiency of the vehicle. The afterbody form plays a vital role in how air flows over and around the object, affecting drag and stability during movement.When engineers and designers consider the afterbody form, they must take into account various factors such as the intended use of the vehicle, the environment in which it will operate, and the desired speed and handling characteristics. For instance, a sports car may feature a sleek and tapered afterbody form to minimize air resistance and enhance speed, whereas a cargo truck might have a more boxy shape to maximize storage space and stability.The impact of the afterbody form extends beyond just aerodynamics. It also affects fuel efficiency, which is increasingly important in today's environmentally conscious world. A well-designed afterbody form can lead to reduced fuel consumption, lower emissions, and ultimately, cost savings for the user. This has led many manufacturers to invest heavily in research and development to optimize their vehicle designs.Moreover, the afterbody form is not solely limited to functional aspects; it also encompasses aesthetic considerations. The visual appeal of a vehicle often hinges on its overall silhouette and the way the afterbody form integrates with the rest of the design. Designers strive to create a harmonious balance between functionality and beauty, ensuring that the afterbody form contributes to the vehicle's identity while still serving its practical purposes.In recent years, advancements in technology have allowed for more precise modeling and simulation of the afterbody form. Computational fluid dynamics (CFD) tools enable engineers to analyze airflow patterns and make informed decisions about design modifications. This level of analysis helps in refining the afterbody form to achieve optimal performance characteristics before physical prototypes are built.Furthermore, sustainability has become a key driver in the evolution of the afterbody form. As the automotive industry shifts towards electric and hybrid vehicles, the design considerations for the afterbody form are changing as well. Engineers are exploring new materials and shapes that not only improve performance but also reduce environmental impact. This shift underscores the importance of the afterbody form in the context of modern transportation solutions.In conclusion, the afterbody form is a multifaceted concept that encompasses both the functional and aesthetic elements of vehicle design. Its influence on aerodynamics, fuel efficiency, and visual appeal makes it a critical consideration for engineers and designers alike. As technology continues to advance, the understanding and application of the afterbody form will undoubtedly evolve, leading to more innovative and efficient vehicles in the future.

在设计和工程领域，术语afterbody form指的是物体后部的形状和结构，特别是在汽车、飞机和船只等交通工具中。这一设计方面至关重要，因为它显著影响车辆的性能、空气动力学和整体效率。afterbody form在空气流过和环绕物体时的流动方式中起着重要作用，影响着运动中的阻力和稳定性。当工程师和设计师考虑afterbody form时，他们必须考虑多种因素，例如车辆的预期用途、其操作环境以及所需的速度和操控特性。例如，一辆跑车可能具有流线型和尖锐的afterbody form，以最小化空气阻力并增强速度，而一辆货车可能采用更方形的形状，以最大化存储空间和稳定性。afterbody form的影响不仅限于空气动力学。它还影响燃油效率，这在当今环保意识日益增强的世界中变得越来越重要。一个设计良好的afterbody form可以减少燃油消耗、降低排放，并最终为用户节省成本。这促使许多制造商在研究和开发方面投入大量资金，以优化他们的车辆设计。此外，afterbody form不仅限于功能方面；它还涉及美学考虑。车辆的视觉吸引力往往取决于其整体轮廓以及afterbody form与其他设计部分的整合方式。设计师努力创造功能和美感之间的和谐平衡，确保afterbody form不仅有助于车辆的身份，同时也服务于其实用目的。近年来，技术的进步使得对afterbody form的建模和模拟变得更加精确。计算流体动力学（CFD）工具使工程师能够分析气流模式，并就设计修改做出明智的决定。这种分析水平有助于完善afterbody form，以在物理原型构建之前实现最佳性能特性。此外，可持续性已成为afterbody form演变的关键驱动力。随着汽车行业向电动和混合动力汽车转型，afterbody form的设计考虑也在发生变化。工程师正在探索新材料和形状，不仅提高性能，还减少环境影响。这一转变突显了afterbody form在现代交通解决方案中的重要性。总之，afterbody form是一个多面概念，涵盖了车辆设计的功能和美学元素。它对空气动力学、燃油效率和视觉吸引力的影响使其成为工程师和设计师的重要考虑因素。随着技术的不断进步，对afterbody form的理解和应用无疑将不断发展，未来将带来更具创新性和高效性的车辆。