whitworth thread

简明释义

惠氏螺纹

英英释义

例句

1.You should use a tap set designed for whitworth thread (惠特沃斯螺纹) when creating new holes.

在打孔时，应使用专为whitworth thread (惠特沃斯螺纹) 设计的攻丝工具。

2.I found a replacement bolt that fits the whitworth thread (惠特沃斯螺纹) specifications perfectly.

我找到了一颗完全符合whitworth thread (惠特沃斯螺纹) 规格的替换螺栓。

3.When assembling the machine, ensure that all screws are compatible with the whitworth thread (惠特沃斯螺纹).

在组装机器时，确保所有螺钉与whitworth thread (惠特沃斯螺纹) 兼容。

4.The technician explained how to measure the pitch of a whitworth thread (惠特沃斯螺纹) accurately.

技术人员解释了如何准确测量whitworth thread (惠特沃斯螺纹) 的螺距。

5.Understanding the differences between whitworth thread (惠特沃斯螺纹) and metric threads is crucial for engineers.

理解whitworth thread (惠特沃斯螺纹) 与公制螺纹之间的差异对工程师至关重要。

作文

The world of engineering and manufacturing relies heavily on standardized measurements and specifications to ensure compatibility and functionality across various components. One such standard that has been widely adopted is the whitworth thread. This term refers to a specific type of screw thread that was developed by Joseph Whitworth in the mid-19th century. The whitworth thread is characterized by its 55-degree thread angle and rounded crests and roots, which differentiate it from other thread standards, such as the metric or unified threads. Understanding the significance of the whitworth thread requires a look into its historical context. During the industrial revolution, there was a pressing need for a unified system of measurement that could facilitate the mass production of machinery and components. Before Whitworth's innovation, various thread forms existed, leading to confusion and inefficiencies in assembly and maintenance. Whitworth's standardization brought about a revolutionary change in the manufacturing process, allowing for interchangeable parts, which was a significant advancement in engineering practices.The whitworth thread became the standard in the United Kingdom and many Commonwealth countries, particularly for mechanical engineering applications. It is commonly used in bolts, nuts, and various fasteners, where strength and reliability are paramount. The rounded profile of the whitworth thread provides better load distribution, reducing the risk of failure under stress compared to sharper-threaded alternatives. This characteristic makes it particularly suitable for heavy-duty applications, such as in construction and automotive industries.In addition to its mechanical advantages, the whitworth thread holds historical significance as it represents a shift towards more systematic approaches in engineering. Its adoption paved the way for the development of other thread standards, including the British Standard Fine (BSF) and the American National Thread (ANSI), which were influenced by Whitworth's principles. Understanding these connections helps appreciate the evolution of engineering standards and their impact on modern technology.Today, engineers and manufacturers must be familiar with various thread types, including the whitworth thread, especially when working on projects that involve older machinery or equipment where this standard may still be in use. Knowledge of the whitworth thread is essential for ensuring compatibility and safety in assembly processes. Moreover, as industries continue to innovate and develop new technologies, the principles behind the whitworth thread remain relevant, underscoring the importance of standardization in engineering.In conclusion, the whitworth thread is more than just a technical specification; it symbolizes a pivotal moment in engineering history that continues to influence modern practices. By understanding its origins, characteristics, and applications, one can appreciate the role of the whitworth thread in shaping the landscape of manufacturing and engineering. As we move forward, it is essential to recognize the importance of such standards in fostering innovation and ensuring the reliability of our technological advancements.

工程和制造领域在很大程度上依赖于标准化的测量和规格，以确保各个组件之间的兼容性和功能性。其中一个被广泛采用的标准是whitworth thread。该术语指的是由约瑟夫·惠特沃斯在19世纪中叶开发的一种特定类型的螺纹。whitworth thread的特点是其55度的螺纹角度以及圆形的顶面和根部，这使其与其他螺纹标准（如公制或统一螺纹）区分开来。理解whitworth thread的重要性需要回顾其历史背景。在工业革命期间，迫切需要一种统一的测量系统，以便方便机械和组件的批量生产。在惠特沃斯的创新之前，存在多种螺纹形式，导致组装和维护中的混乱和低效。惠特沃斯的标准化带来了制造过程的革命性变化，使得可互换零件成为可能，这是工程实践的重要进步。whitworth thread在英国和许多英联邦国家成为机械工程应用的标准，广泛用于螺栓、螺母和各种紧固件，在这些地方强度和可靠性至关重要。whitworth thread的圆形轮廓提供了更好的负载分配，降低了在应力下失效的风险，相较于尖锐螺纹的替代品，这一特性使其特别适合于重型应用，如建筑和汽车工业。除了其机械优势之外，whitworth thread还具有历史意义，因为它代表了工程领域向更系统化方法的转变。它的采用为其他螺纹标准的发展铺平了道路，包括受到惠特沃斯原则影响的英国标准细螺纹（BSF）和美国国家螺纹（ANSI）。理解这些联系有助于欣赏工程标准的演变及其对现代技术的影响。如今，工程师和制造商必须熟悉各种螺纹类型，包括whitworth thread，特别是在处理涉及旧机器或设备的项目时，其中仍可能使用这一标准。了解whitworth thread对于确保组装过程中的兼容性和安全性至关重要。此外，随着行业继续创新和发展新技术，whitworth thread背后的原则仍然相关，强调了标准化在工程中的重要性。总之，whitworth thread不仅仅是一个技术规格；它象征着工程历史上的一个关键时刻，继续影响现代实践。通过理解其起源、特征和应用，人们可以欣赏到whitworth thread在塑造制造和工程领域中的作用。随着我们向前发展，认识到这种标准在促进创新和确保我们技术进步的可靠性方面的重要性是至关重要的。