micrography

简明释义

英[maɪˈkrɒɡrəfi]美[maɪˈkrɑːɡrəfi]

n. [摄] 显微照相；显微镜描记法；微写

英英释义

单词用法

同义词

反义词

例句

1.The vessel elements of secondary xylem in Tectona grandis are observed and studied by cell image analysis system and micrography.

运用细胞图象分析系统及显微照相的方法对柚木次生木质部导管分子进行了观察研究。

2.Methods Permanent paraffin sections and light micrography were used.

方法采用石蜡永久制片和光学显微摄像的方法。

3.The effects of pressure, gas flow and methane concentrate in the growth rate and micrography of CVD diamond films were discussed.

本文着重研究了沉积气压、气体流量和甲烷浓度对金刚石薄膜形貌和生长速度的影响。

4.From the micrography, we found that the mechanism of agglutination was inlaying and the mechanism of absorption was through the dissolution.

通过对犬胫骨标本的组织学检查发现，其粘接机理可能为机械镶嵌固定，并通过溶解而逐步吸收。

5.The prepared product has been characterized by means of X-ray diffraction (XRD) and scanning electron micrography (SEM).

通过X射线粉末衍射（XRD）和扫描电子显微镜（SEM）对产物进行了表征。

6.We have discovered that the camera we use for micrography also includes a value of 96 dpi in our images, which has to be corrected.

我们发现显微镜上的相机拍摄的图像其dpi值为96，这需要进行修正。

7.From the micrography, we found that the mechanism of agglutination was inlaying and the mechanism of absorption was through the dissolution.

通过对犬胫骨标本的组织学检查发现，其粘接机理可能为机械镶嵌固定，并通过溶解而逐步吸收。

8.This failure analysis was performed by using macro check, micrography and hardness measurement.

采用宏观分析、显微检验和硬度测定对压铸模进行了失效分析。

9.In the lab, we used micrography to analyze the surface of the material.

在实验室中，我们使用显微摄影来分析材料的表面。

10.The study of cellular structures often involves techniques like micrography.

细胞结构的研究通常涉及像显微摄影这样的技术。

11.The field of materials science heavily relies on micrography for examining microstructures.

材料科学领域在检查微观结构时严重依赖于显微摄影。

12.The micrography of the tissue sample revealed important information about its health.

组织样本的显微摄影揭示了关于其健康的重要信息。

13.Researchers presented their findings using detailed micrography images.

研究人员使用详细的显微摄影图像展示他们的发现。

作文

Micrography is a fascinating field of study that involves the use of microscopes to capture detailed images of small objects or structures. This technique has revolutionized various scientific disciplines, including biology, materials science, and medicine. The term micrography refers to the art and science of taking photographs through a microscope, allowing researchers to observe and document phenomena that are otherwise invisible to the naked eye. With the advancement of technology, micrography has evolved significantly, enabling scientists to explore the intricate details of cells, tissues, and other microscopic entities.One of the most significant applications of micrography is in the field of biology. Biologists utilize this technique to study cellular structures, understand disease mechanisms, and explore the complexities of life at a microscopic level. For instance, by employing micrography, researchers can visualize the arrangement of organelles within a cell, providing insights into how these components interact to sustain life. Additionally, micrography plays a crucial role in identifying pathogens, as it allows for the examination of bacteria, viruses, and fungi, which are often too small to be seen without magnification.In materials science, micrography is used to analyze the microstructure of materials, helping scientists understand their properties and behaviors. By examining the grain structure of metals or the crystalline arrangements in polymers, researchers can determine how these materials will perform under different conditions. This information is vital for developing new materials and improving existing ones, making micrography an essential tool in engineering and manufacturing.Moreover, in the field of medicine, micrography contributes significantly to diagnostics and research. Pathologists often rely on micrography to examine tissue samples, identifying abnormalities that may indicate diseases such as cancer. The ability to visualize cellular changes allows for earlier detection and more accurate diagnoses, ultimately improving patient outcomes. Furthermore, micrography aids in the development of new treatments by enabling researchers to study how drugs affect cells at a molecular level.The process of micrography itself involves several steps, including sample preparation, imaging, and analysis. Proper sample preparation is critical, as it ensures that the specimen is suitable for observation under the microscope. Techniques such as staining are often employed to enhance contrast and highlight specific structures within the sample. Once prepared, the sample is placed under a microscope, where high-resolution images can be captured. These images are then analyzed to extract meaningful data, contributing to the body of knowledge in various scientific fields.In conclusion, micrography is a powerful tool that has transformed our understanding of the microscopic world. Its applications span numerous disciplines, from biology to materials science and medicine. As technology continues to advance, the capabilities of micrography will only expand, opening up new avenues for research and discovery. Embracing the potential of micrography will undoubtedly lead to groundbreaking innovations that can improve our lives and deepen our understanding of the universe around us.

微观摄影是一个迷人的研究领域，涉及使用显微镜捕捉小物体或结构的详细图像。这项技术彻底改变了包括生物学、材料科学和医学在内的各种科学学科。术语微观摄影指的是通过显微镜拍摄照片的艺术和科学，使研究人员能够观察和记录在肉眼下看不见的现象。随着技术的进步，微观摄影发生了显著变化，使科学家能够探索细胞、组织和其他微观实体的复杂细节。微观摄影最重要的应用之一是在生物学领域。生物学家利用这项技术研究细胞结构，理解疾病机制，并探索微观层面上生命的复杂性。例如，通过采用微观摄影，研究人员可以可视化细胞内细胞器的排列，提供有关这些成分如何相互作用以维持生命的见解。此外，微观摄影在识别病原体方面发挥着至关重要的作用，因为它允许检查细菌、病毒和真菌，这些通常太小而无法在没有放大情况下被看到。在材料科学中，微观摄影用于分析材料的微观结构，帮助科学家了解其特性和行为。通过检查金属的晶粒结构或聚合物中的晶体排列，研究人员可以确定这些材料在不同条件下的表现。这些信息对于开发新材料和改进现有材料至关重要，使得微观摄影成为工程和制造中的重要工具。此外，在医学领域，微观摄影对诊断和研究做出了重大贡献。病理学家通常依赖微观摄影来检查组织样本，识别可能表明癌症等疾病的异常情况。可视化细胞变化的能力使得早期检测和更准确的诊断成为可能，最终改善患者的结果。此外，微观摄影通过使研究人员能够研究药物如何在分子水平上影响细胞，帮助开发新疗法。微观摄影的过程本身涉及几个步骤，包括样本准备、成像和分析。适当的样本准备至关重要，因为它确保标本适合在显微镜下观察。通常采用染色等技术以增强对比度并突出样本中的特定结构。一旦准备好，样本就会放置在显微镜下，可以捕获高分辨率图像。这些图像随后被分析以提取有意义的数据，为各个科学领域的知识体系做出贡献。总之，微观摄影是一种强大的工具，已经改变了我们对微观世界的理解。它的应用跨越多个学科，从生物学到材料科学和医学。随着技术的不断进步，微观摄影的能力只会扩大，为研究和发现开辟新的途径。拥抱微观摄影的潜力无疑将导致突破性的创新，这些创新可以改善我们的生活并加深我们对周围宇宙的理解。