micropositioning table
简明释义
微型定位台
英英释义
例句
1.In the lab, we have a state-of-the-art micropositioning table for our experiments on nanotechnology.
在实验室里,我们有一个最先进的微定位台用于纳米技术实验。
2.We calibrated the micropositioning table to ensure accurate positioning during the experiment.
我们校准了微定位台以确保实验期间的位置准确。
3.The micropositioning table allows for adjustments in the micrometer range, which is crucial for our measurements.
这个微定位台允许在微米范围内进行调整,这对我们的测量至关重要。
4.The researcher used a micropositioning table to precisely align the laser beam with the optical fiber.
研究人员使用微定位台精确对准激光束与光纤。
5.Using a micropositioning table, the technician was able to manipulate the sample with extreme precision.
技术员使用微定位台能够极其精确地操作样本。
作文
In the field of precision engineering, the term micropositioning table refers to an advanced piece of equipment that allows for extremely fine adjustments in the positioning of objects. These tables are essential in various applications, such as semiconductor manufacturing, optical alignment, and biomedical research, where the slightest misalignment can lead to significant errors. The micropositioning table is designed to provide high-resolution movements, often in the micrometer or nanometer range, enabling researchers and engineers to achieve unparalleled accuracy in their work.The technology behind a micropositioning table typically involves a combination of mechanical design and sophisticated control systems. Most tables are equipped with multiple axes of movement, allowing for three-dimensional positioning. Users can manipulate the table using manual controls or computer software, which can be programmed to execute precise movements automatically. This capability makes the micropositioning table an invaluable tool in laboratories and industrial settings.One of the primary advantages of using a micropositioning table is its ability to reduce human error. In many scientific experiments, even a slight deviation in position can invalidate results. By utilizing this technology, researchers can ensure that their samples are placed exactly where they need to be, thus improving the reliability and reproducibility of their experiments. Furthermore, the automation capabilities of modern micropositioning tables allow for increased efficiency, as they can perform repetitive tasks without fatigue or inconsistency.Moreover, the versatility of micropositioning tables is noteworthy. They can be used in conjunction with various tools and instruments, such as microscopes, lasers, and imaging systems. This adaptability makes them suitable for a wide range of fields, including materials science, physics, and medical diagnostics. For instance, in the realm of optical microscopy, a micropositioning table can help researchers precisely align samples for imaging, leading to clearer and more detailed images.As technology continues to advance, the features of micropositioning tables are also evolving. Newer models may incorporate smart technology, allowing for real-time monitoring and adjustments. Some systems are now compatible with artificial intelligence algorithms, which can optimize positioning based on feedback from sensors. This integration of cutting-edge technology promises to enhance the capabilities of micropositioning tables, making them even more effective in meeting the demands of modern research and industry.In conclusion, the micropositioning table is a critical component in the toolkit of scientists and engineers who require precise control over the positioning of objects. Its high-resolution movements, reduction of human error, and versatility across various applications make it an indispensable asset in many fields. As innovations continue to emerge, the future of micropositioning tables looks promising, with the potential to further revolutionize precision engineering and scientific research.
在精密工程领域,术语微定位台指的是一种先进的设备,可以对物体的位置进行极其细微的调整。这些台子在半导体制造、光学对准和生物医学研究等多个应用中至关重要,因为即使是最轻微的错位也可能导致重大错误。微定位台旨在提供高分辨率的运动,通常在微米或纳米范围内,使研究人员和工程师能够在他们的工作中实现无与伦比的精确度。微定位台背后的技术通常涉及机械设计和复杂控制系统的结合。大多数台子配备了多个运动轴,允许进行三维定位。用户可以使用手动控制或计算机软件操作该台子,后者可以编程以自动执行精确的运动。这种能力使得微定位台成为实验室和工业环境中不可或缺的工具。使用微定位台的主要优点之一是能够减少人为错误。在许多科学实验中,即使是轻微的位置偏差也会使结果失效。通过利用这项技术,研究人员可以确保他们的样品放置在需要的位置,从而提高实验的可靠性和可重复性。此外,现代微定位台的自动化功能提高了效率,因为它们可以在没有疲劳或不一致的情况下执行重复任务。此外,微定位台的多功能性也值得注意。它们可以与各种工具和仪器结合使用,例如显微镜、激光器和成像系统。这种适应性使得它们适用于材料科学、物理学和医学诊断等广泛领域。例如,在光学显微镜领域,微定位台可以帮助研究人员精确对齐样品以进行成像,从而获得更清晰、更详细的图像。随着技术的不断进步,微定位台的功能也在不断演变。新型号可能会结合智能技术,允许实时监控和调整。一些系统现在与人工智能算法兼容,这些算法可以根据传感器的反馈优化定位。这种尖端技术的整合有望增强微定位台的能力,使其在满足现代研究和工业需求方面更加有效。总之,微定位台是科学家和工程师工具箱中的关键组成部分,他们需要对物体的位置进行精确控制。其高分辨率运动、减少人为错误以及在各种应用中的多功能性使其成为许多领域不可或缺的资产。随着创新的不断涌现,微定位台的未来前景光明,有潜力进一步革新精密工程和科学研究。
