minimum weight

简明释义

最低重量

英英释义

例句

1.The airline requires a minimum weight 最低重量 of 20 kg for checked luggage.

航空公司要求托运行李的最低重量 minimum weight为20公斤。

2.In this competition, participants must meet a minimum weight 最低重量 of 50 kg to qualify.

在这场比赛中，参与者必须达到最低重量 minimum weight50公斤才能资格赛。

3.The recipe calls for a minimum weight 最低重量 of flour to achieve the right texture.

这个食谱要求面粉的最低重量 minimum weight以达到正确的质地。

4.The product specifications state a minimum weight 最低重量 of 100 grams for safety.

产品规格说明书中规定了安全的最低重量 minimum weight为100克。

5.To ensure quality, the factory has set a minimum weight 最低重量 for each package.

为了确保质量，工厂为每个包裹设定了最低重量 minimum weight。

作文

In the world of engineering and design, the concept of minimum weight is crucial. It refers to the lightest possible weight that a structure or component can achieve while still fulfilling its intended function and safety requirements. This principle is particularly important in industries such as aerospace, automotive, and civil engineering. By minimizing weight, engineers can improve efficiency, reduce material costs, and enhance performance. For example, in aerospace engineering, every gram counts. Aircraft must be designed with a minimum weight to ensure they can fly efficiently, carry necessary payloads, and meet regulatory standards. The challenge lies in finding materials and designs that provide strength and durability without unnecessary bulk. Innovations in composite materials and advanced manufacturing techniques have allowed engineers to push the boundaries of what is possible in terms of minimum weight. In automotive design, achieving a minimum weight can lead to better fuel efficiency and lower emissions. Lighter vehicles require less energy to operate, which is a significant consideration in today's environmentally conscious market. Manufacturers are increasingly using lightweight materials, such as aluminum and carbon fiber, to construct vehicle bodies and components, allowing for a minimum weight that does not compromise safety or performance. In civil engineering, the concept of minimum weight applies to structures like bridges and buildings. Engineers must consider the weight of materials used in construction while ensuring that they can support the loads they will encounter over time. Utilizing advanced modeling techniques and materials science, engineers strive to achieve a minimum weight that optimizes both safety and cost-effectiveness. Achieving a minimum weight is not just about reducing the amount of material used; it also involves careful planning and analysis. Engineers must conduct simulations and tests to ensure that their designs can withstand various forces and environmental conditions. This iterative process often leads to innovative solutions that combine aesthetics with functionality. Ultimately, the pursuit of minimum weight is a balancing act between performance, safety, and cost. As technology continues to evolve, the methods for achieving a minimum weight will likely become more sophisticated, allowing for even greater advancements in various industries. In conclusion, understanding the importance of minimum weight is essential for anyone involved in engineering and design. It represents a fundamental principle that drives innovation and efficiency across multiple sectors. By focusing on reducing weight while maintaining integrity and performance, engineers can create more sustainable and effective solutions for the challenges of tomorrow.

在工程和设计的世界中，最小重量的概念至关重要。它指的是一个结构或组件在满足其预期功能和安全要求的同时可以达到的最轻重量。这个原则在航空航天、汽车和土木工程等行业尤为重要。通过减轻重量，工程师可以提高效率，降低材料成本，并增强性能。例如，在航空航天工程中，每克都至关重要。飞机必须以< span>最小重量进行设计，以确保它们能够高效飞行，携带必要的有效载荷，并符合监管标准。挑战在于找到提供强度和耐用性而不增加不必要体积的材料和设计。复合材料和先进制造技术的创新使工程师能够推动< span>最小重量的可能性。在汽车设计中，实现< span>最小重量可以带来更好的燃油效率和更低的排放。较轻的车辆需要更少的能量来运行，这在当今环保意识日益增强的市场中是一个重要考虑因素。制造商越来越多地使用铝和碳纤维等轻质材料来构建车身和部件，从而实现既不妨碍安全又不妨碍性能的< span>最小重量。在土木工程中，< span>最小重量的概念适用于桥梁和建筑等结构。工程师在施工中必须考虑所用材料的重量，同时确保它们能够支撑随时间变化的负载。利用先进的建模技术和材料科学，工程师努力实现优化安全性和成本效益的< span>最小重量。实现< span>最小重量不仅仅是减少材料的使用；它还涉及仔细的规划和分析。工程师必须进行模拟和测试，以确保他们的设计能够承受各种力量和环境条件。这个迭代过程通常会导致创新的解决方案，将美学与功能结合起来。最终，追求< span>最小重量是一种在性能、安全性和成本之间的平衡。随着技术的不断发展，实现< span>最小重量的方法可能会变得更加复杂，从而使各个行业的进一步进步成为可能。总之，理解< span>最小重量的重要性对于任何参与工程和设计的人来说都是必不可少的。它代表了推动各个领域创新和效率的基本原则。通过关注减轻重量，同时保持完整性和性能，工程师可以为未来的挑战创造更可持续和有效的解决方案。