microinch
简明释义
英[ˈmaɪkrəʊˌɪntʃ]美[ˈmaɪkroʊɪntʃ]
n. 微英寸
英英释义
单词用法
以微英寸为单位测量 | |
微英寸的公差 | |
几微英寸 | |
微英寸的精度 | |
微英寸的变化 | |
表面粗糙度以微英寸为单位 |
同义词
| 微英寸 | 涂层的厚度以微英寸为单位进行测量。 | ||
| 百万分之一英寸 | Precision instruments can measure dimensions to within a millionth of an inch. | 精密仪器可以测量到百万分之一英寸的尺寸。 |
反义词
| 宏英寸 | 宏英寸测量用于较大的尺寸。 | ||
| 英寸 | An inch is a standard unit of measurement in the imperial system. | 英寸是英制系统中的标准测量单位。 |
例句
1.Strip roughness must not exceed 40 microinch (1.0 micron) in order to achieve these minimum coat weights.
板面粗糙度不能超过40微寸(1.0微米),以达到最低镀层重量。
2.Strip roughness must not exceed 40 microinch (1.0 micron) in order to achieve these minimum coat weights.
板面粗糙度不能超过40微寸(1.0微米),以达到最低镀层重量。
3.When inspecting the surface finish, we found variations in the microinches range.
在检查表面光洁度时,我们发现变化在微英寸范围内。
4.The engineer calibrated the device to measure down to microinches.
工程师对设备进行了校准,以测量到微英寸。
5.The optical sensor can detect changes as small as a few microinches.
光学传感器可以检测到小至几个微英寸的变化。
6.The precision of the measurement was within a few microinches.
测量的精确度在几个微英寸之内。
7.In manufacturing, tolerances can be as tight as a few microinches.
在制造业中,公差可以紧至几个微英寸。
作文
In the world of precision engineering and manufacturing, the term microinch refers to a unit of measurement that is incredibly small, specifically one millionth of an inch. This level of precision is crucial in various industries, including aerospace, automotive, and electronics, where even the slightest deviation can lead to significant issues in performance and safety. Understanding the significance of microinch is essential for professionals working in these fields, as it directly impacts the quality and reliability of their products.For example, in the aerospace industry, components such as turbine blades and structural elements must be manufactured to extremely tight tolerances. A difference of just a few microinches can affect the aerodynamics of an aircraft or the efficiency of an engine. Engineers and manufacturers use advanced machinery and technology to ensure that every part is produced within the specified microinch tolerances. This not only guarantees optimal performance but also ensures compliance with strict regulatory standards.Similarly, in the automotive sector, the assembly of engines, transmissions, and other critical components requires precise measurements down to the microinch. For instance, the clearance between moving parts must be measured and controlled accurately to prevent wear and tear, which can lead to costly repairs and safety hazards. The use of microinch measurements allows engineers to design parts that fit together perfectly, resulting in smoother operation and improved fuel efficiency.Moreover, the electronics industry relies heavily on microinch specifications for circuit boards and semiconductor devices. As technology advances, the size of electronic components continues to shrink, making it necessary to measure and fabricate parts with incredible accuracy. A variation of just a few microinches can impact the electrical conductivity and overall functionality of a device. Therefore, manufacturers invest in high-precision tools and equipment that can handle these minute measurements.The importance of microinch extends beyond just manufacturing; it also plays a vital role in quality control and assurance processes. Companies implement rigorous testing protocols to verify that components meet the required microinch standards before they are assembled into final products. This attention to detail helps prevent defects and ensures that customers receive reliable and high-quality products.In conclusion, the concept of microinch is integral to modern engineering and manufacturing practices. Its relevance spans multiple industries, highlighting the need for precision in every aspect of production. As technology continues to evolve, the demand for tighter tolerances and smaller measurements will likely increase, making the understanding of microinch even more critical for professionals in the field. By mastering this concept, engineers and manufacturers can contribute to advancements in technology and improve the safety and efficiency of their products.
在精密工程和制造的世界中,术语microinch指的是一个极其微小的测量单位,具体来说是英寸的百万分之一。这种精度在航空航天、汽车和电子等多个行业至关重要,因为即使是最微小的偏差也可能导致性能和安全方面的重大问题。理解microinch的重要性对于在这些领域工作的专业人士来说至关重要,因为它直接影响到产品的质量和可靠性。例如,在航空航天工业中,涡轮叶片和结构元件等部件必须以极其严格的公差进行制造。仅仅几microinches的差异就可能影响飞机的气动性能或发动机的效率。工程师和制造商使用先进的机械和技术来确保每个零件都在规定的microinch公差范围内生产。这不仅保证了最佳性能,还确保遵守严格的监管标准。同样,在汽车行业中,发动机、变速器和其他关键部件的组装要求精确测量到microinch。例如,运动部件之间的间隙必须准确测量和控制,以防止磨损,这可能导致昂贵的维修和安全隐患。使用microinch测量可以让工程师设计出完美契合的部件,从而实现更平稳的操作和更高的燃油效率。此外,电子行业在电路板和半导体设备的生产中也严重依赖于microinch规格。随着技术的发展,电子元件的尺寸不断缩小,这就需要以令人难以置信的精度来测量和制造部件。仅仅几microinches的变化就可能影响设备的电导率和整体功能。因此,制造商投资于能够处理这些微小测量的高精度工具和设备。microinch的重要性不仅限于制造,它在质量控制和保证过程中也起着至关重要的作用。公司实施严格的测试协议,以验证组件是否符合所需的microinch标准,然后再将其组装成最终产品。这种对细节的关注有助于防止缺陷,并确保客户获得可靠且高质量的产品。总之,microinch的概念是现代工程和制造实践中不可或缺的一部分。它的相关性跨越多个行业,突显出生产各个方面对精度的需求。随着技术的不断发展,对更严格公差和更小测量的需求可能会增加,使得对专业人士而言理解microinch变得更加重要。通过掌握这一概念,工程师和制造商可以为技术进步做出贡献,并提高其产品的安全性和效率。
