single spar

简明释义

单杆桅(由单独一根杆制成

英英释义

例句

1.In the construction of the sailboat, the use of a single spar allowed for a more streamlined design.

在帆船的建造中，使用单翼梁使设计更加流线型。

2.The model airplane features a single spar wing that simplifies assembly and repair.

这款模型飞机的翼采用了单翼梁设计，简化了组装和维修。

3.Using a single spar in the frame of the drone helped reduce its overall weight significantly.

在无人机的框架中使用单翼梁显著减少了整体重量。

4.Engineers decided to implement a single spar structure in the new bridge design for cost efficiency.

工程师决定在新桥设计中采用单翼梁结构以提高成本效率。

5.The aircraft was designed with a lightweight frame that included a single spar for enhanced aerodynamics.

这架飞机采用了轻量化框架，包含一个单翼梁以增强气动性能。

作文

The concept of a single spar is often used in the field of engineering and architecture, particularly when discussing structures that require a balance between strength and weight. A single spar refers to a singular beam or rod that serves as a primary support element in a construction design. This term is commonly associated with aircraft design, where the single spar structure can significantly influence the overall performance and stability of the aircraft. In the context of aviation, the single spar design allows for a lighter airframe, which can enhance fuel efficiency and maneuverability. For instance, many modern gliders utilize a single spar configuration to maximize their aerodynamic efficiency while minimizing the weight. This is crucial because every ounce of weight saved can lead to improved flight characteristics, enabling longer flights and better performance under various conditions.Moreover, the use of a single spar can simplify the manufacturing process. By reducing the number of components needed for a structure, manufacturers can streamline production, decrease costs, and reduce assembly time. This efficiency is particularly important in industries where time-to-market is critical, such as aerospace and automotive sectors.However, employing a single spar also comes with its challenges. The structural integrity of a system relying on a single spar must be meticulously analyzed to ensure it can withstand the loads and stresses it will encounter during operation. Engineers must consider factors such as material properties, load distribution, and potential failure modes. In addition, the design of a single spar structure often requires advanced computational tools and simulations to predict performance and identify any weaknesses before physical prototypes are built. This rigorous analysis is essential to ensure safety and reliability, especially in critical applications like aerospace.Beyond engineering, the idea of a single spar can also be metaphorically applied in various aspects of life. For instance, one might view a single spar as a representation of focus and determination. Just as a single spar provides essential support in a structure, having a single-minded focus on a goal can lead to greater success. This concept can be applied to personal development, career aspirations, and even relationships. By concentrating our efforts on one primary objective, we can achieve a sense of clarity and purpose that might otherwise be lost in the noise of multitasking and distraction.In conclusion, the term single spar encompasses both technical and metaphorical significance. In engineering, it highlights the balance between strength and efficiency, while in life, it serves as a reminder of the power of focused effort. Understanding the implications of a single spar can provide valuable insights into both the physical and philosophical structures that support our endeavors.

“单根支杆”的概念常用于工程和建筑领域，特别是在讨论需要在强度和重量之间取得平衡的结构时。“单根支杆”指的是作为建筑设计中主要支撑元素的单一梁或杆。这个术语通常与飞机设计相关，因为“单根支杆”结构可以显著影响飞机的整体性能和稳定性。在航空领域，“单根支杆”设计允许更轻的机身，这可以提高燃油效率和机动性。例如，许多现代滑翔机利用“单根支杆”配置来最大化它们的空气动力效率，同时最小化重量。这一点至关重要，因为每节省一盎司的重量都可以改善飞行特性，从而实现更长的飞行时间和在各种条件下更好的性能。此外，使用“单根支杆”还可以简化制造过程。通过减少结构所需的组件数量，制造商可以优化生产流程，降低成本，并减少组装时间。这种效率在时间至关重要的行业中尤为重要，例如航空航天和汽车行业。然而，采用“单根支杆”也面临挑战。依赖于“单根支杆”的系统的结构完整性必须经过精心分析，以确保它能够承受在操作过程中遇到的载荷和应力。工程师必须考虑材料特性、载荷分布和潜在故障模式等因素。此外，“单根支杆”结构的设计通常需要先进的计算工具和模拟来预测性能并识别在物理原型构建之前的任何弱点。这种严格的分析对于确保安全和可靠性至关重要，尤其是在航空航天等关键应用中。除了工程之外，“单根支杆”的概念也可以在生活的各个方面进行隐喻应用。例如，人们可能会将“单根支杆”视为专注和决心的象征。正如“单根支杆”为结构提供必要的支撑一样，专注于一个目标的单一思维也可以带来更大的成功。这一概念可以应用于个人发展、职业抱负甚至人际关系。通过将我们的努力集中在一个主要目标上，我们可以获得一种清晰感和目标感，这在多任务和分心的噪音中可能会丧失。总之，“单根支杆”这一术语既包含技术意义，也包含隐喻意义。在工程中，它突出了强度与效率之间的平衡，而在生活中，它则提醒我们专注努力的力量。理解“单根支杆”的含义可以为我们支持事业的物质和哲学结构提供宝贵的见解。