maximum blade width ratio

简明释义

最大叶宽比

英英释义

例句

1.The engineer calculated the maximum blade width ratio 最大刀片宽度比 to ensure optimal performance of the turbine.

工程师计算了最大刀片宽度比以确保涡轮机的最佳性能。

2.To comply with safety regulations, the maximum blade width ratio 最大刀片宽度比 must not exceed certain limits.

为了遵守安全法规，最大刀片宽度比不得超过某些限制。

3.The research team studied the effects of varying the maximum blade width ratio 最大刀片宽度比 on airflow dynamics.

研究小组研究了改变最大刀片宽度比对气流动态的影响。

4.In designing the fan, we must consider the maximum blade width ratio 最大刀片宽度比 to avoid excessive noise.

在设计风扇时，我们必须考虑最大刀片宽度比以避免过大的噪音。

5.The manufacturer specified a maximum blade width ratio 最大刀片宽度比 to enhance the efficiency of the cutting tool.

制造商指定了一个最大刀片宽度比以提高切削工具的效率。

作文

In the field of engineering and design, particularly in the manufacturing of blades for various applications, understanding the concept of maximum blade width ratio is crucial. This ratio refers to the maximum allowable width of a blade relative to its length or other dimensions, providing essential insights into the performance and efficiency of the blade in operation. The importance of this ratio cannot be understated, as it impacts not only the effectiveness of the blade but also the safety and durability of the equipment it is used in.To elaborate further, the maximum blade width ratio is often considered during the design phase of blades used in machinery such as turbines, pumps, and cutting tools. A blade that is too wide in proportion to its length may encounter issues such as increased drag, reduced efficiency, and potential for failure under stress. Conversely, if the blade is too narrow, it may not be able to handle the required loads or perform its intended function effectively. Therefore, engineers must carefully calculate and optimize this ratio to ensure that the blades perform at their best.For instance, in the design of wind turbine blades, the maximum blade width ratio plays a significant role in determining how much energy the turbine can capture from the wind. A well-optimized blade width allows for better aerodynamics, which translates to higher efficiency and energy output. Engineers must consider various factors, including the materials used, the expected wind speeds, and the specific design of the turbine, to arrive at the optimal width ratio.Moreover, the maximum blade width ratio is also relevant in the context of cutting tools used in manufacturing processes. In this case, the ratio affects the tool's cutting efficiency and the quality of the finished product. A cutting tool with an inappropriate width ratio may lead to excessive wear, increased heat generation, and poor cutting performance. Thus, manufacturers invest significant time and resources into research and development to establish the ideal maximum blade width ratio for their products.Additionally, safety considerations are paramount when discussing the maximum blade width ratio. Blades that do not adhere to appropriate width ratios may pose risks to operators and equipment alike. For example, if a blade is too wide, it may cause vibrations that lead to catastrophic failures, while a blade that is too narrow might break under stress, leading to dangerous situations. Therefore, adhering to the established guidelines for the maximum blade width ratio is essential for ensuring safe operation.In conclusion, the maximum blade width ratio is a critical parameter in the design and application of blades across various industries. It influences performance, efficiency, safety, and durability, making it a key consideration for engineers and designers. By understanding and optimizing this ratio, manufacturers can create more effective and reliable products that meet the demands of their applications. Ongoing research and advances in materials and technology will continue to enhance our understanding of the maximum blade width ratio, ensuring that blades remain efficient and safe in their respective fields of use.

在工程和设计领域，特别是在各种应用中刀片的制造中，理解“最大刀片宽度比”这一概念至关重要。这个比率指的是刀片相对于其长度或其他尺寸的最大允许宽度，为刀片在操作中的性能和效率提供了基本的见解。这个比率的重要性不容小觑，因为它不仅影响刀片的有效性，还影响其使用设备的安全性和耐用性。进一步说明，“最大刀片宽度比”通常在机器刀片的设计阶段被考虑，例如涡轮机、泵和切削工具。相对于其长度，如果刀片过宽，可能会遇到如增加阻力、降低效率以及在应力下发生故障等问题。相反，如果刀片过窄，则可能无法承受所需的负荷或有效地执行其预定功能。因此，工程师必须仔细计算并优化这一比率，以确保刀片表现最佳。例如，在风力涡轮机刀片的设计中，“最大刀片宽度比”在决定涡轮机能够从风中捕获多少能量方面起着重要作用。经过良好优化的刀片宽度可以实现更好的空气动力学，从而转化为更高的效率和能量输出。工程师必须考虑多种因素，包括所用材料、预期风速和涡轮机的具体设计，以达到最佳的宽度比。此外，“最大刀片宽度比”在制造过程中使用的切削工具的背景下也很相关。在这种情况下，刀具的宽度比影响切削效率和成品质量。不适当宽度比的切削工具可能导致过度磨损、热量产生增加和切削性能差。因此，制造商在研究和开发中投入大量时间和资源，以确定其产品的理想“最大刀片宽度比”。此外，在讨论“最大刀片宽度比”时，安全考虑是至关重要的。不遵循适当宽度比的刀片可能对操作人员和设备构成风险。例如，如果刀片过宽，可能会造成振动，导致灾难性故障，而刀片过窄则可能在应力下断裂，导致危险情况。因此，遵守“最大刀片宽度比”的既定准则对于确保安全操作至关重要。总之，“最大刀片宽度比”是设计和应用刀片在各个行业中的关键参数。它影响性能、效率、安全性和耐用性，使其成为工程师和设计师的重要考虑因素。通过理解和优化这一比率，制造商可以创造出更有效、更可靠的产品，以满足其应用的需求。随着材料和技术的不断进步，关于“最大刀片宽度比”的理解将继续深化，确保刀片在各自的应用领域中保持高效和安全。