A.S.T.M. Classification

简明释义

美国实验和材料学会的煤岩分类;

英英释义

A.S.T.M. Classification refers to a system developed by the American Society for Testing and Materials (ASTM) for categorizing materials and products based on their physical and chemical properties, performance characteristics, and testing methods.

A.S.T.M. 分类是指由美国材料和试验协会(ASTM)开发的一种系统,用于根据材料和产品的物理和化学特性、性能特征和测试方法对其进行分类。

例句

1.Understanding the A.S.T.M. Classification 美国材料与试验协会分类标准 is crucial for material selection in engineering.

理解A.S.T.M. Classification 美国材料与试验协会分类标准 对于工程材料选择至关重要。

2.The laboratory tests were conducted according to the A.S.T.M. Classification 美国材料与试验协会分类标准 to ensure accuracy.

实验室测试是根据A.S.T.M. Classification 美国材料与试验协会分类标准 进行的,以确保准确性。

3.The product was tested and certified under the A.S.T.M. Classification 美国材料与试验协会分类标准 for durability.

该产品经过测试并根据A.S.T.M. Classification 美国材料与试验协会分类标准 认证为耐用。

4.The material you choose must comply with the A.S.T.M. Classification 美国材料与试验协会分类标准 for safety standards.

您选择的材料必须符合A.S.T.M. Classification 美国材料与试验协会分类标准 的安全标准。

5.Before starting the construction project, we need to review the A.S.T.M. Classification 美国材料与试验协会分类标准 of the materials.

在开始建设项目之前,我们需要审核材料的A.S.T.M. Classification 美国材料与试验协会分类标准

作文

The term A.S.T.M. Classification refers to a standardized system developed by the American Society for Testing and Materials (ASTM) to categorize materials based on their properties and performance. This classification is essential in various industries, including construction, manufacturing, and environmental science, as it provides a common language for engineers, architects, and manufacturers to communicate about material specifications. Understanding the A.S.T.M. Classification is crucial for professionals who need to ensure that the materials they use meet specific standards for safety, durability, and functionality.One of the primary benefits of the A.S.T.M. Classification is that it helps in selecting the right materials for a project. For example, when constructing a building, an architect must choose materials that can withstand environmental factors such as wind, rain, and temperature fluctuations. By referring to the A.S.T.M. Classification, the architect can quickly identify which materials are suitable for the intended use and comply with local building codes.The A.S.T.M. Classification also plays a significant role in quality control. Manufacturers often rely on these classifications to ensure that their products meet industry standards. For instance, if a company produces steel for construction, it must adhere to specific ASTM classifications that dictate the chemical composition, tensile strength, and other mechanical properties of the steel. This adherence not only guarantees the quality of the product but also protects the company from liability issues that may arise from using substandard materials.Moreover, the A.S.T.M. Classification facilitates research and development in various fields. Researchers often refer to these classifications when testing new materials or developing innovative products. By understanding the established classifications, they can better assess how new materials compare to existing ones and determine their potential applications. This process is vital in industries like aerospace and automotive, where material performance can significantly impact safety and efficiency.In addition to its practical applications, the A.S.T.M. Classification promotes sustainability. As industries increasingly focus on reducing their environmental impact, understanding the classifications helps in selecting eco-friendly materials. For instance, builders can refer to the A.S.T.M. Classification to find materials that are recycled or have a lower carbon footprint, thus contributing to more sustainable construction practices.Furthermore, the A.S.T.M. Classification is continually updated to reflect advancements in technology and changes in industry standards. This dynamic nature ensures that professionals are equipped with the most current information, allowing them to make informed decisions. Staying abreast of these updates is essential for anyone involved in material selection, as outdated classifications can lead to poor choices that compromise safety and performance.In conclusion, the A.S.T.M. Classification is a vital tool across various industries, providing a framework for material selection, quality control, research and development, and sustainability efforts. By understanding and utilizing this classification system, professionals can ensure they are making informed decisions that enhance the safety, durability, and efficiency of their projects. Whether you are an architect, engineer, or manufacturer, familiarity with the A.S.T.M. Classification is essential for achieving success in your field.

术语A.S.T.M. Classification指的是由美国材料与试验协会(ASTM)开发的一种标准化系统,用于根据材料的属性和性能对其进行分类。该分类在建筑、制造和环境科学等多个行业中至关重要,因为它为工程师、建筑师和制造商提供了一种共同的语言,以便就材料规格进行沟通。理解A.S.T.M. Classification对需要确保所用材料符合安全、耐用和功能性特定标准的专业人士来说至关重要。A.S.T.M. Classification的主要好处之一是它有助于选择项目的合适材料。例如,在建造建筑物时,建筑师必须选择能够承受风、雨和温度波动等环境因素的材料。通过参考A.S.T.M. Classification,建筑师可以快速识别出哪些材料适合预期用途,并符合当地建筑规范。A.S.T.M. Classification在质量控制中也发挥着重要作用。制造商通常依赖这些分类来确保其产品符合行业标准。例如,如果一家公司生产用于建筑的钢材,则必须遵循特定的ASTM分类,这些分类规定了钢材的化学成分、抗拉强度和其他机械性能。这种遵循不仅保证了产品的质量,还保护公司免受因使用不合格材料而可能引发的责任问题。此外,A.S.T.M. Classification促进了各个领域的研究与开发。研究人员在测试新材料或开发创新产品时,通常会参考这些分类。通过了解已建立的分类,他们可以更好地评估新材料与现有材料的比较,以及确定其潜在应用。这一过程在航空航天和汽车等行业至关重要,因为材料性能会显著影响安全性和效率。除了其实际应用外,A.S.T.M. Classification还促进了可持续性。随着各行业越来越关注减少其环境影响,理解这些分类有助于选择环保材料。例如,建筑商可以参考A.S.T.M. Classification找到回收材料或碳足迹较低的材料,从而有助于实现更可持续的建筑实践。此外,A.S.T.M. Classification不断更新,以反映技术进步和行业标准的变化。这种动态性质确保专业人士掌握最新信息,使他们能够做出明智的决策。紧跟这些更新对于任何参与材料选择的人来说都是至关重要的,因为过时的分类可能导致糟糕的选择,从而危及安全和性能。总之,A.S.T.M. Classification是各个行业中一个至关重要的工具,为材料选择、质量控制、研究与开发以及可持续性努力提供了框架。通过理解和利用这一分类系统,专业人士可以确保他们做出增强项目安全性、耐用性和效率的明智决策。无论您是建筑师、工程师还是制造商,熟悉A.S.T.M. Classification对在您的领域取得成功至关重要。