lightened plate frame

简明释义

空心肋板

英英释义

例句

1.Using a lightened plate frame in construction can significantly lower the material costs.

在建筑中使用轻量化的板框可以显著降低材料成本。

2.The lightened plate frame on this drone allows for longer flight times.

这款无人机的轻量化的机身框架使其飞行时间更长。

3.The lightened plate frame design enhances the aesthetic appeal of modern furniture.

这种轻量化的板框设计提升了现代家具的美观性。

4.The new bicycle model features a lightened plate frame that reduces overall weight for better performance.

新款自行车采用了轻量化的车架，减轻了整体重量，提高了性能。

5.Many racing teams prefer cars with a lightened plate frame for improved speed.

许多赛车队更喜欢采用轻量化的车架以提高速度。

作文

In the world of engineering and design, the term lightened plate frame refers to a structural component that has been optimized for weight reduction while maintaining its strength and functionality. This concept is crucial in various industries, particularly in automotive and aerospace engineering, where every ounce of weight can significantly impact performance and efficiency. The lightened plate frame is typically constructed using advanced materials and innovative design techniques that allow for a more efficient use of resources. By minimizing the weight of the frame, engineers can enhance the overall performance of vehicles, making them faster and more fuel-efficient.One of the primary benefits of utilizing a lightened plate frame is the improvement in fuel economy. In the automotive industry, lighter vehicles require less energy to move, which translates into lower fuel consumption. This is especially important in today's market, where consumers are increasingly concerned about environmental sustainability and the rising cost of fuel. Manufacturers that adopt this technology can offer products that not only meet regulatory standards but also appeal to eco-conscious consumers.Additionally, a lightened plate frame contributes to better handling and acceleration. When a vehicle is lighter, it can achieve higher speeds more quickly and maneuver more effectively around corners. This is why many high-performance sports cars and racing vehicles are designed with lightweight frames. Engineers often use materials such as carbon fiber or aluminum to create these frames, as they provide the necessary strength without adding excessive weight.The application of lightened plate frame technology extends beyond automobiles. In the aerospace industry, for instance, aircraft manufacturers strive to reduce the weight of their planes to improve fuel efficiency and increase payload capacity. A lighter aircraft can carry more passengers or cargo, making it more economically viable. Innovations in materials science have led to the development of composite materials that are incredibly strong yet lightweight, allowing for the creation of lightened plate frames that meet the rigorous demands of aviation.Moreover, the concept of a lightened plate frame is not limited to just vehicles and aircraft. It can also be applied to various consumer products, from bicycles to furniture. For example, a bicycle frame designed with lightweight materials can enhance performance for competitive cyclists, making it easier to climb hills and accelerate. Similarly, lightweight furniture can be easier to move and rearrange, appealing to modern consumers who value flexibility in their living spaces.In conclusion, the lightened plate frame is a vital innovation in contemporary engineering that offers numerous advantages across multiple industries. Its significance lies not only in weight reduction but also in the enhanced performance, fuel efficiency, and overall functionality it provides. As technology continues to advance, we can expect further developments in the design and application of lightened plate frames, leading to even more efficient and sustainable solutions in engineering and manufacturing. The future of design will undoubtedly be shaped by the principles of weight optimization and material innovation, making the lightened plate frame a key element in the pursuit of excellence in various fields.

在工程和设计的世界中，术语轻量化板框架指的是一种经过优化以减少重量，同时保持其强度和功能的结构组件。这个概念在各个行业中都至关重要，特别是在汽车和航空航天工程中，任何一盎司的重量都可能显著影响性能和效率。轻量化板框架通常采用先进的材料和创新的设计技术构建，这使得资源的使用更加高效。通过最小化框架的重量，工程师可以增强车辆的整体性能，使其更快、更省油。利用轻量化板框架的主要好处之一是改善燃油经济性。在汽车行业，较轻的车辆需要更少的能量来移动，这转化为更低的燃油消耗。这在今天的市场中尤为重要，消费者越来越关注环境可持续性和燃料成本的上升。采用这一技术的制造商可以提供不仅符合监管标准，而且吸引环保意识强烈的消费者的产品。此外，轻量化板框架有助于更好的操控性和加速性。当一辆车更轻时，它可以更快地达到更高的速度，并更有效地在转弯时操控。这就是为什么许多高性能跑车和赛车的设计都采用轻量化框架的原因。工程师们通常使用碳纤维或铝等材料来创建这些框架，因为它们在不增加过多重量的情况下提供必要的强度。轻量化板框架技术的应用不仅限于汽车。在航空航天行业，例如，飞机制造商努力减少飞机的重量，以提高燃油效率并增加载重能力。一架更轻的飞机可以承载更多乘客或货物，使其在经济上更具可行性。材料科学的创新导致了复合材料的发展，这些材料既强大又轻便，使得满足航空严格要求的轻量化板框架的创建成为可能。此外，轻量化板框架的概念并不限于车辆和飞机。它还可以应用于各种消费产品，从自行车到家具。例如，采用轻量化材料设计的自行车框架可以提升竞技自行车手的表现，使爬坡和加速变得更容易。同样，轻量化家具也更易于移动和重新安排，吸引现代消费者对灵活生活空间的重视。总之，轻量化板框架是当代工程中的一项重要创新，提供了多个行业的众多优势。其重要性不仅体现在重量减少上，还体现在它所提供的增强性能、燃油效率和整体功能性上。随着技术的不断进步，我们可以期待在轻量化板框架的设计和应用方面有进一步的发展，从而在工程和制造中带来更加高效和可持续的解决方案。设计的未来无疑将受到重量优化和材料创新原则的影响，使得轻量化板框架成为追求各个领域卓越的关键元素。