semi-built-up type with cast steel throws

简明释义

具有铸钢曲柄的半组合式

英英释义

例句

1.Using a semi-built-up type with cast steel throws allows for easier maintenance and replacement parts.

使用半组装类型的铸钢抛投器可以更方便地进行维护和更换零件。

2.In our latest project, we opted for a semi-built-up type with cast steel throws to improve performance under heavy loads.

在我们最新的项目中，我们选择了半组装类型的铸钢抛投器以提高重载下的性能。

3.The engineer recommended using a semi-built-up type with cast steel throws for better vibration control.

工程师建议使用半组装类型的铸钢抛投器以更好地控制振动。

4.The new machinery is designed with a semi-built-up type with cast steel throws, which enhances its durability.

这台新机器采用了半组装类型的铸钢抛投器，增强了其耐用性。

5.Our production line features equipment with a semi-built-up type with cast steel throws for increased efficiency.

我们的生产线配备了具有半组装类型的铸钢抛投器的设备，以提高效率。

作文

In the world of engineering and manufacturing, the terminology can often be complex and specialized. One such phrase that captures the essence of modern mechanical design is semi-built-up type with cast steel throws. This term refers to a specific construction method used in various machinery components, particularly in the context of rotating equipment. To fully appreciate the significance of this phrase, it is essential to break it down into its constituent parts and explore its applications in real-world scenarios.The term semi-built-up type with cast steel throws suggests a hybrid construction approach. The 'semi-built-up' aspect indicates that the component is not entirely manufactured from scratch but rather assembled using pre-fabricated parts. This method can lead to significant efficiencies in production, as it allows manufacturers to leverage existing materials while reducing waste and costs. For instance, in the automotive industry, many engine components are produced using semi-built-up methods, allowing for quicker assembly times and improved performance.The second part of the phrase, 'with cast steel throws,' refers to the material and design of the component's throws or arms. Cast steel is known for its durability and strength, making it an ideal choice for components that endure high levels of stress and strain. In applications such as turbines or pumps, where the throws must withstand significant forces during operation, the use of cast steel ensures reliability and longevity. The choice of material plays a crucial role in determining the overall performance and efficiency of the machinery.When we combine these two elements, we see how the semi-built-up type with cast steel throws represents a sophisticated approach to engineering design. It reflects a trend towards modularity and adaptability in manufacturing processes. By utilizing semi-built-up designs, engineers can customize components to meet specific operational requirements without the need for complete redesigns. This flexibility is particularly valuable in industries where rapid changes in technology and consumer demand require manufacturers to be agile and responsive.Moreover, the use of cast steel in the throws enhances the performance characteristics of the machinery. Cast steel components can be engineered to achieve precise tolerances and surface finishes, which are critical for ensuring smooth operation and minimizing wear over time. In high-performance applications, such as aerospace or industrial machinery, even minor deviations in component specifications can lead to significant performance issues. Therefore, the integration of semi-built-up type with cast steel throws in design processes exemplifies a commitment to quality and excellence.In conclusion, understanding the phrase semi-built-up type with cast steel throws opens up a window into the complexities of modern engineering practices. It highlights the importance of material selection, design methodologies, and the drive for efficiency in manufacturing. As industries continue to evolve, embracing innovative approaches like this will be vital for maintaining competitiveness and achieving sustainability. Engineers and manufacturers who prioritize such advanced techniques will likely lead the way in creating the next generation of reliable and efficient machinery.

在工程和制造的世界中，术语往往复杂且专业。其中一个能够捕捉现代机械设计本质的短语是半组装类型与铸钢抛杆。这个术语指的是在各种机械部件中使用的一种特定构造方法，特别是在旋转设备的上下文中。要充分理解这个短语的意义，有必要将其分解为组成部分，并探讨其在现实世界中的应用。“半组装”这一部分表明，该组件并非完全从头制造，而是通过预制零件组装而成。这种方法可以显著提高生产效率，因为它允许制造商利用现有材料，同时减少浪费和成本。例如，在汽车工业中，许多发动机部件采用半组装方法生产，从而实现更快的组装时间和更好的性能。短语的第二部分“铸钢抛杆”则指组件的抛杆或臂的材料和设计。铸钢以其耐用性和强度而闻名，是承受高应力和压力的组件的理想选择。在涡轮机或泵等应用中，抛杆必须在操作过程中承受显著的力量，因此使用铸钢可以确保可靠性和耐久性。材料的选择在决定机械整体性能和效率方面发挥着至关重要的作用。当我们将这两个元素结合起来时，我们看到半组装类型与铸钢抛杆代表了一种复杂的工程设计方法。它反映了制造过程模块化和适应性的趋势。通过利用半组装设计，工程师可以根据特定的操作要求定制组件，而无需进行完全重新设计。这种灵活性在技术和消费者需求快速变化的行业中尤为宝贵，制造商需要保持敏捷和响应能力。此外，抛杆中铸钢的使用增强了机械的性能特征。铸钢组件可以被设计成达到精确的公差和表面光洁度，这对确保平稳运行和最小磨损至关重要。在航空航天或工业机械等高性能应用中，即使是组件规格的轻微偏差也可能导致显著的性能问题。因此，将半组装类型与铸钢抛杆集成到设计过程中，体现了对质量和卓越的承诺。总之，理解短语半组装类型与铸钢抛杆为我们打开了现代工程实践复杂性的窗口。它突显了材料选择、设计方法以及在制造中追求效率的重要性。随着各行业的不断发展，拥抱这样的创新方法对保持竞争力和实现可持续发展至关重要。优先考虑这些先进技术的工程师和制造商可能会引领创造下一代可靠和高效的机械。