outer-bottom expansion

简明释义

底部外板展开

英英释义

例句

1.The engineer explained how the outer-bottom expansion would affect the load-bearing capacity.

工程师解释了外底扩展将如何影响承载能力。

2.The outer-bottom expansion is crucial for ensuring that the structure can withstand environmental pressures.

确保结构能够承受环境压力的关键是外底扩展。

3.During the meeting, the architect presented a model that incorporated outer-bottom expansion for better drainage.

在会议上，建筑师展示了一个包含外底扩展以更好排水的模型。

4.We need to consider the outer-bottom expansion when calculating the overall dimensions of the container.

在计算容器的总体尺寸时，我们需要考虑外底扩展。

5.The design team focused on the outer-bottom expansion to enhance the stability of the product.

设计团队专注于外底扩展以增强产品的稳定性。

作文

The concept of outer-bottom expansion is pivotal in various fields, particularly in engineering and architecture. This term refers to the process of increasing the dimensions or area of the outer bottom surface of a structure or component. Understanding outer-bottom expansion can lead to significant advancements in design efficiency and structural integrity.In engineering, the outer-bottom expansion plays a crucial role when designing vehicles, buildings, or any structure that requires a stable base. For instance, in automotive engineering, the expansion of the outer bottom of a vehicle can enhance its aerodynamics, reducing drag and improving fuel efficiency. Similarly, in building construction, ensuring that the foundation has an adequate outer-bottom expansion can prevent issues related to settling or shifting over time.Moreover, in the context of materials science, understanding how different materials respond to outer-bottom expansion is essential. Different materials have varying thermal expansion coefficients, which means they expand and contract at different rates when subjected to temperature changes. Engineers must consider these factors when designing components that experience significant temperature fluctuations, ensuring that the outer-bottom expansion does not compromise the structural integrity of a material.The implications of outer-bottom expansion extend beyond engineering into environmental considerations as well. For example, in coastal engineering, the expansion of the outer bottom of structures like seawalls or piers can affect marine ecosystems. Properly accounting for outer-bottom expansion can mitigate negative impacts on local wildlife and habitats.Furthermore, the concept is also relevant in the realm of manufacturing. The production of certain products may require controlled outer-bottom expansion to achieve desired specifications. For instance, in the production of containers or packaging, the outer bottom must be designed to expand adequately to accommodate the contents without compromising the overall strength of the package.In conclusion, the term outer-bottom expansion encompasses a wide range of applications across multiple disciplines. From enhancing structural stability to improving performance in various systems, understanding this concept is vital for professionals in engineering, architecture, and manufacturing. As technology advances, the ability to effectively manage outer-bottom expansion will continue to evolve, leading to more innovative designs and solutions in our built environment. It is essential for future engineers and architects to grasp this concept thoroughly, as it will undoubtedly play a significant role in their work and the sustainability of our infrastructure.

“outer-bottom expansion”（外底扩展）的概念在多个领域中至关重要，尤其是在工程和建筑领域。这个术语指的是增加结构或组件外部底面尺寸或面积的过程。理解“outer-bottom expansion”可以带来设计效率和结构完整性的显著提升。在工程学中，“outer-bottom expansion”在设计车辆、建筑或任何需要稳定基础的结构时发挥着关键作用。例如，在汽车工程中，车辆外部底部的扩展可以增强其空气动力学，减少阻力并提高燃油效率。同样，在建筑施工中，确保基础具有足够的“outer-bottom expansion”可以防止因沉降或移动而导致的问题。此外，在材料科学的背景下，了解不同材料如何响应“outer-bottom expansion”是至关重要的。不同材料具有不同的热膨胀系数，这意味着它们在温度变化时以不同的速率膨胀和收缩。在设计经历重大温度波动的组件时，工程师必须考虑这些因素，以确保“outer-bottom expansion”不会损害材料的结构完整性。“outer-bottom expansion”的影响不仅限于工程，还涉及环境因素。例如，在沿海工程中，像海堤或码头这样的结构外底的扩展可能会影响海洋生态系统。适当地考虑“outer-bottom expansion”可以减轻对当地野生动物和栖息地的负面影响。此外，这个概念在制造领域也很相关。某些产品的生产可能需要控制“outer-bottom expansion”，以达到所需的规格。例如，在容器或包装的生产中，外底必须设计得足够扩展，以容纳内容物而不损害包装的整体强度。总之，“outer-bottom expansion”这一术语涵盖了多个学科中的广泛应用。从增强结构稳定性到改善各种系统的性能，理解这一概念对于工程、建筑和制造专业人士至关重要。随着技术的进步，有效管理“outer-bottom expansion”的能力将继续发展，从而在我们建造的环境中推动更具创新性的设计和解决方案。未来的工程师和建筑师必须深入掌握这一概念，因为它无疑将在他们的工作和基础设施的可持续性中发挥重要作用。