micrometric

简明释义

英[ˌmaɪkrəˈmɛtrɪk]美[ˌmaɪkrəˈmɛtrɪk]

adj. 测微的；测微术的

英英释义

单词用法

同义词

反义词

例句

1.The principle, structure and assembling method of 0 ". 2 micrometric autocollimator and its two main accessories are introduced in the paper."

本文介绍了0.2秒测微自准平行光管及两种主要附件的原理、结构及装调方法。

2.Automatic and adjustable micrometric advancement of cake cutting device, remote controlled from the control board.

蛋糕切口设备，遥控的自动和可调整的测微推进从控制板。

3.The principle, structure and assembling method of 0 ". 2 micrometric autocollimator and its two main accessories are introduced in the paper."

本文介绍了0.2秒测微自准平行光管及两种主要附件的原理、结构及装调方法。

4.Move with the X axis micrometric movement the sharp shadow, till the digital comparator red light is on the zero right position.

微调移动X轴接近“十”字比较尺，直到数字比较器的指示灯在零点右边变亮。

5.The micrometric 微米级的 scale used in this experiment allows for highly detailed observations.

本实验中使用的微米级的刻度允许进行高度详细的观察。

6.His research focused on micrometric 微米级的 particles in the atmosphere and their effects on climate change.

他的研究集中在大气中的微米级的颗粒及其对气候变化的影响上。

7.The micrometric 微米级的 adjustments made to the telescope improved its accuracy significantly.

对望远镜所做的微米级的调整显著提高了其准确性。

8.The engineer measured the micrometric 微米级的 dimensions of the component to ensure precision in manufacturing.

工程师测量了零件的微米级的尺寸，以确保制造的精确性。

9.In the lab, we use micrometric 微米级的 tools to analyze the surface roughness of materials.

在实验室中，我们使用微米级的工具来分析材料的表面粗糙度。

作文

In the realm of science and technology, precision is paramount. One term that encapsulates this concept is micrometric, which refers to measurements or dimensions on the scale of micrometers. A micrometer is one-millionth of a meter, making it essential in fields such as engineering, physics, and materials science. The ability to measure objects with micrometric accuracy allows researchers and professionals to create and manipulate materials at a level that was once unimaginable.For instance, in the field of semiconductor manufacturing, the components of microchips are often designed and fabricated with micrometric precision. This level of detail is crucial because even the smallest deviation can lead to significant malfunctions in electronic devices. Engineers utilize sophisticated tools like electron microscopes and laser interferometers to achieve these micrometric specifications, ensuring that every component fits perfectly within the overall design.Moreover, the importance of micrometric measurements extends beyond electronics. In the medical field, for example, surgical instruments must be manufactured to micrometric tolerances to ensure safety and effectiveness during procedures. A slight error in measurement can have dire consequences, underscoring the need for precision in medical technology. This is why many hospitals invest heavily in equipment that can provide micrometric accuracy, allowing surgeons to operate with confidence.In addition to engineering and medicine, micrometric measurements are also vital in the field of materials science. Researchers studying the properties of new materials often need to understand their structure at the micrometric level. For example, the strength of a material can be significantly affected by its grain size, which is typically measured in micrometers. By analyzing materials at this scale, scientists can develop stronger, lighter, and more durable products, which can have a wide range of applications from aerospace to automotive industries.Furthermore, the advent of nanotechnology has brought about a greater emphasis on micrometric measurements. As scientists delve deeper into the nanoscale, understanding the relationship between micrometric features and their nanoscale counterparts becomes increasingly important. This interplay can lead to breakthroughs in various fields, including drug delivery systems, where micrometric carriers can transport medications directly to targeted cells, enhancing treatment efficacy while minimizing side effects.In conclusion, the term micrometric serves as a reminder of the critical importance of precision in modern science and technology. Whether in electronics, medicine, materials science, or nanotechnology, micrometric measurements play a vital role in driving innovation and ensuring safety. As technology continues to advance, the demand for micrometric accuracy will only grow, pushing the boundaries of what is possible and enabling new discoveries that can transform our world.

在科学和技术领域，精确度至关重要。一个能够概括这一概念的术语是micrometric，它指的是微米级别的测量或尺寸。微米是一米的百万分之一，这使得它在工程、物理和材料科学等领域中至关重要。以micrometric 精度测量物体的能力使研究人员和专业人士能够在一个曾经不可想象的水平上创造和操纵材料。例如，在半导体制造领域，微芯片的组件通常以micrometric 精度设计和制造。这种细节水平至关重要，因为即使是最小的偏差也可能导致电子设备的重大故障。工程师利用电子显微镜和激光干涉仪等复杂工具来实现这些micrometric 规格，确保每个组件都能完美地融入整体设计中。此外，micrometric 测量的重要性不仅限于电子产品。在医疗领域，例如，外科手术器械必须以micrometric 公差制造，以确保在手术过程中的安全性和有效性。测量中的微小误差可能会导致严重后果，这突显了医疗技术中对精确度的需求。这就是为什么许多医院在能够提供micrometric 精度的设备上进行大量投资，使外科医生能够自信地进行手术。除了工程和医学，micrometric 测量在材料科学领域也至关重要。研究新材料特性的研究人员往往需要在micrometric 级别上理解其结构。例如，材料的强度可能会受到其晶粒大小的显著影响，而晶粒大小通常以微米为单位进行测量。通过在这个尺度上分析材料，科学家可以开发出更强、更轻、更耐用的产品，这些产品可以广泛应用于航空航天和汽车工业。此外，纳米技术的出现使得对micrometric 测量的重视程度加大。随着科学家深入研究纳米尺度，理解micrometric 特征与其纳米尺度对应物之间的关系变得越来越重要。这种相互作用可以在各种领域带来突破，包括药物递送系统，其中micrometric载体可以将药物直接运输到靶细胞，从而提高治疗效果，同时减少副作用。总之，术语micrometric 提醒我们现代科学和技术中精确度的重要性。无论是在电子产品、医学、材料科学还是纳米技术中，micrometric 测量在推动创新和确保安全方面发挥着至关重要的作用。随着技术的不断进步，对micrometric 精度的需求只会增加，推动着可能性的边界，并促成能够改变我们世界的新发现。