mean thickness

简明释义

平均厚度

英英释义

例句

1.To improve insulation, we need to increase the mean thickness of the wall materials.

为了提高绝缘性，我们需要增加墙体材料的平均厚度。

2.The report showed that the mean thickness of the coating was consistent across all samples.

报告显示所有样本的涂层平均厚度一致。

3.The mean thickness of the pavement affects the durability of the road.

路面的平均厚度影响道路的耐久性。

4.In the study, the mean thickness of the ice was measured to assess safety for winter activities.

在研究中，测量了冰的平均厚度以评估冬季活动的安全性。

5.The engineer calculated the mean thickness of the material to ensure it met the required standards.

工程师计算了材料的平均厚度以确保其符合要求标准。

作文

In the field of materials science, understanding the properties of various substances is essential for innovation and quality control. One important property that researchers often analyze is the mean thickness, which refers to the average thickness of a material across different samples or sections. This measurement plays a crucial role in determining the performance and durability of materials used in various applications, from construction to electronics. For instance, when constructing buildings, engineers must ensure that the materials they use meet specific standards for strength and safety. The mean thickness of concrete or steel beams can significantly influence their load-bearing capacity. If the mean thickness is too thin, the structure may be at risk of collapse under heavy loads. Therefore, precise measurements and calculations are vital to guarantee that the materials will perform as expected over time.Similarly, in the manufacturing of electronic devices, the mean thickness of insulating layers can affect the overall functionality and longevity of the product. For example, if the mean thickness of a protective coating on a circuit board is inconsistent, it may lead to short circuits or other malfunctions. Consequently, manufacturers need to maintain strict quality control measures to ensure that the mean thickness of their products meets industry standards.Moreover, the concept of mean thickness is not limited to solid materials. In the realm of biology, researchers study the mean thickness of cell membranes or tissue layers to understand various physiological processes. For instance, variations in the mean thickness of arterial walls can indicate potential health issues such as atherosclerosis. By monitoring these measurements, medical professionals can assess an individual's risk of cardiovascular diseases and implement preventive measures.To accurately determine the mean thickness of any material, scientists employ various techniques, including microscopy, ultrasound, and laser scanning. Each method has its advantages and limitations, and the choice of technique often depends on the material being studied and the required precision. For example, optical microscopy can provide detailed images of thin films, while ultrasound is better suited for measuring the mean thickness of thicker materials like metals or composites.In conclusion, the concept of mean thickness is fundamental across multiple disciplines, influencing everything from structural integrity to technological advancements. By comprehensively understanding and accurately measuring this property, researchers and professionals can ensure that materials perform optimally in their intended applications. As technology continues to evolve, the importance of monitoring and controlling the mean thickness of materials will only grow, highlighting the need for ongoing research and development in this critical area of study.

在材料科学领域，理解各种物质的性质对创新和质量控制至关重要。研究人员经常分析的一个重要属性是mean thickness，它指的是在不同样本或部分中材料的平均厚度。这一测量在确定用于各种应用的材料的性能和耐用性方面发挥着关键作用，从建筑到电子产品。例如，在建造建筑物时，工程师必须确保他们使用的材料符合特定的强度和安全标准。混凝土或钢梁的mean thickness可以显著影响其承载能力。如果mean thickness过薄，结构可能在重载下面临倒塌的风险。因此，精确的测量和计算对于确保材料在长时间内按预期表现至关重要。同样，在电子设备的制造中，绝缘层的mean thickness会影响产品的整体功能和耐用性。例如，如果电路板保护涂层的mean thickness不一致，可能会导致短路或其他故障。因此，制造商需要保持严格的质量控制措施，以确保其产品的mean thickness符合行业标准。此外，mean thickness的概念并不限于固体材料。在生物学领域，研究人员研究细胞膜或组织层的mean thickness以了解各种生理过程。例如，动脉壁的mean thickness变化可能表明潜在的健康问题，如动脉粥样硬化。通过监测这些测量，医疗专业人员可以评估个人的心血管疾病风险并采取预防措施。为了准确确定任何材料的mean thickness，科学家们采用各种技术，包括显微镜、超声波和激光扫描。每种方法都有其优缺点，技术的选择通常取决于所研究的材料及所需的精度。例如，光学显微镜可以提供薄膜的详细图像，而超声波更适合测量金属或复合材料等较厚材料的mean thickness。总之，mean thickness的概念在多个学科中都是基础性的，影响着从结构完整性到技术进步的方方面面。通过全面理解和准确测量这一属性，研究人员和专业人士可以确保材料在其预期应用中表现最佳。随着技术的不断发展，监测和控制材料的mean thickness的重要性将只会增加，这突显了在这一关键研究领域持续进行研究和开发的必要性。