sclerometer

简明释义

英[sklɪəˈrɒmɪtə(r)]美[sklɪˈrɑːmətər]

n. 硬度计

英英释义

单词用法

同义词

反义词

例句

1.The company main equipments are introduced from Taiwan and Japan , and is furnished with various kinds of detecting instruments , such as projector , sclerometer , salt fog testing machine etc.

公司主要设备均从台湾或日本引进，并配有投影仪、硬度计、盐雾试验机等各种检测仪器。

2.The company main equipments are introduced from Taiwan and Japan , and is furnished with various kinds of detecting instruments , such as projector , sclerometer , salt fog testing machine etc.

公司主要设备均从台湾或日本引进，并配有投影仪、硬度计、盐雾试验机等各种检测仪器。

3.Through field test, the reliability of metal material separation is affirmed by sclerometer testing repetition measurement. Moreover, ejection experiments are made in shooting range.

通过现场试验，以硬度计检测复检确认了金属材料分选仪的可靠性，并进行靶场退壳试验。

4.The microstructure and properties of high manganese steel under the conditions of different rolling load were analyzed and studied through the om, TEM and HD-187.5 sclerometer.

利用光学显微镜、透射电子显微镜和HD- 187.5型硬度计对高锰钢在不同轧制应力条件下的组织和性能进行了分析和研究。

5.In this paper, large alloy iron parts and low-alloy steel parts after surface heat treatment, used in the diesel engine, were tested and compared. By Leeb hardness sclerometer.

针对本厂生产的柴油机中合金铸铁和低合金钢表面热处理的大型零部件进行对比测试，扩大里氏硬度计在实践中的应用。

6.The company provides electronic double-digital display tension spring, compression spring, torsion spring testing device, prijector, sclerometer, and salt spray tester.

电子双数显拉簧、压簧、扭簧测试仪器、投影仪、硬度计、盐雾测试机等。

7.The method that realizes data communication between hand sclerometer and computer with VB are introduced. Further data processing will be done.

文章介绍了使用VB作为开发工具，实现手持硬度计与计算机之间的数据通信，再由计算机对数据做进一步加工处理的方法。

8.There are sound physical and chemical inspection equipment, optical microscope, universal test machine, desktop sclerometer.

还有完善的理化检验设备，金相显微镜、万能性试验机、台式硬度计。

9.The engineer used a sclerometer to measure the hardness of the new material.

工程师使用sclerometer来测量新材料的硬度。

10.In our lab, we rely on the sclerometer to assess the wear resistance of coatings.

在我们的实验室，我们依赖sclerometer来评估涂层的耐磨性。

11.The results from the sclerometer indicated that the alloy was significantly harder than expected.

来自sclerometer的结果表明，该合金的硬度远超预期。

12.For quality control, the factory installed a sclerometer to test products before shipment.

为了质量控制，工厂安装了sclerometer以在发货前测试产品。

13.During the research, we discovered that the sclerometer readings were consistent across different samples.

在研究过程中，我们发现不同样本的sclerometer读数是一致的。

作文

The study of materials and their properties is a fundamental aspect of science and engineering. Among the various tools used to measure the hardness of materials, the sclerometer plays a crucial role. A sclerometer (硬度计) is an instrument specifically designed to assess the hardness of a material by measuring its resistance to indentation. Understanding how a sclerometer works and its applications can provide valuable insights into material science. The principle behind the sclerometer is relatively straightforward. It operates by pressing a hard indenter into the surface of the material being tested. The depth of the indentation created by the indenter is measured, and this measurement is used to calculate the hardness of the material. Different types of sclerometers use various methods to apply pressure and measure the resulting indentation. Some may use a diamond-tipped indenter, while others might employ different materials depending on the specific requirements of the test. One of the most significant advantages of using a sclerometer is its ability to provide quick and accurate measurements. In industries such as manufacturing and construction, where material properties are critical, having reliable data on hardness can influence decisions regarding material selection and processing techniques. For example, a manufacturer may use a sclerometer to determine whether a particular alloy is suitable for producing components that will endure high stress and wear. Furthermore, the sclerometer is not limited to just metals; it can also be used to test polymers, ceramics, and composites. This versatility makes it an invaluable tool in research and development, as scientists and engineers can evaluate new materials under various conditions. By understanding the hardness of a material, researchers can predict how it will perform in real-world applications, thus enhancing safety and efficiency. In addition to its practical applications, the sclerometer also has educational significance. In academic settings, students studying materials science or engineering often have the opportunity to work with a sclerometer. This hands-on experience allows them to grasp theoretical concepts related to hardness and material properties more effectively. By conducting experiments with a sclerometer, students learn how to interpret data and understand the implications of their findings in real-world scenarios. Moreover, advancements in technology have led to the development of modern sclerometers that incorporate digital displays and automated measurement systems. These innovations enhance the user experience and improve the accuracy of measurements. As industries continue to evolve, the demand for precise material testing equipment like the sclerometer is expected to grow. In conclusion, the sclerometer is a vital instrument in the field of material science, providing essential information about the hardness of various materials. Its applications span across multiple industries, contributing to improved material selection and product development. Whether in a laboratory setting or an industrial environment, the sclerometer serves as a bridge between theoretical knowledge and practical application, making it an indispensable tool for engineers and scientists alike. Understanding the function and importance of the sclerometer not only enriches our knowledge of materials but also enhances our ability to innovate and create safer, more efficient products for the future.

材料及其特性研究是科学和工程的基础方面。在用于测量材料硬度的各种工具中，sclerometer（硬度计）发挥着重要作用。sclerometer是一种专门设计用于通过测量材料对压痕的抵抗力来评估材料硬度的仪器。理解sclerometer的工作原理及其应用可以为材料科学提供宝贵的见解。 sclerometer的原理相对简单。它通过将一个坚硬的压头压入被测试材料的表面来操作。所产生的压痕深度被测量，并用这个测量值来计算材料的硬度。不同类型的sclerometer使用各种方法施加压力并测量结果压痕。有些可能使用钻石尖端的压头，而其他可能根据测试的具体要求使用不同的材料。 使用sclerometer的一个重要优点是能够提供快速而准确的测量。在制造和建筑等行业中，材料特性的关键性使得获取可靠的硬度数据能够影响材料选择和加工技术上的决策。例如，制造商可能会使用sclerometer来确定某种合金是否适合用于生产承受高应力和磨损的组件。 此外，sclerometer不仅限于金属；它还可以用于测试聚合物、陶瓷和复合材料。这种多功能性使其成为研究和开发中的宝贵工具，因为科学家和工程师可以在各种条件下评估新材料。通过理解材料的硬度，研究人员可以预测其在实际应用中的表现，从而提高安全性和效率。 除了其实际应用外，sclerometer在教育上也具有重要意义。在学术环境中，学习材料科学或工程的学生通常有机会使用sclerometer。这种实践经验使他们能够更有效地掌握与硬度和材料特性相关的理论概念。通过使用sclerometer进行实验，学生学习如何解释数据并理解其发现的现实世界场景中的含义。 此外，技术的进步导致现代sclerometer的发展，采用数字显示和自动测量系统。这些创新增强了用户体验，提高了测量的准确性。随着行业的不断发展，对像sclerometer这样的精密材料测试设备的需求预计将增长。 总之，sclerometer是材料科学领域的一种重要仪器，提供有关各种材料硬度的基本信息。它的应用跨越多个行业，有助于改善材料选择和产品开发。无论是在实验室环境还是工业环境中，sclerometer都是理论知识与实践应用之间的桥梁，使其成为工程师和科学家不可或缺的工具。理解sclerometer的功能和重要性不仅丰富了我们对材料的知识，而且增强了我们创新和创造更安全、更高效产品的能力。