rupture strength

简明释义

破裂强度

英英释义

例句

1.A higher rupture strength indicates a more durable material, which is essential for construction applications.

更高的断裂强度表示材料更耐用，这对于建筑应用至关重要。

2.Testing the rupture strength of different polymers helps in selecting the right material for packaging.

测试不同聚合物的断裂强度有助于选择合适的包装材料。

3.Engineers must consider the rupture strength of the cables when designing suspension bridges.

工程师在设计悬索桥时必须考虑电缆的断裂强度。

4.During the quality control process, the rupture strength of the steel bars was measured to ensure safety standards.

在质量控制过程中，钢筋的断裂强度被测量以确保安全标准。

5.The material's rupture strength is crucial for ensuring it can withstand high stress without failing.

材料的断裂强度对于确保其在高应力下不失效至关重要。

作文

Rupture strength is a crucial property of materials that determines their ability to withstand stress before failing. In engineering and material science, understanding the concept of rupture strength (断裂强度) is essential for designing safe and efficient structures. This property is particularly important in industries such as construction, manufacturing, and aerospace, where materials are subjected to various forces during their lifecycle.To elaborate, rupture strength (断裂强度) refers to the maximum amount of tensile stress that a material can endure before it breaks or ruptures. It is typically measured in units of pressure, such as Pascals (Pa) or pounds per square inch (psi). Different materials exhibit varying levels of rupture strength (断裂强度), which can be influenced by factors such as temperature, strain rate, and the presence of defects or impurities.For instance, metals like steel generally have high rupture strength (断裂强度), making them suitable for load-bearing applications. On the other hand, materials like rubber have much lower rupture strength (断裂强度) but are valued for their flexibility and elasticity. Understanding these differences is vital for engineers when selecting materials for specific applications.In addition to its importance in material selection, rupture strength (断裂强度) plays a significant role in failure analysis. When a structure fails, engineers often investigate whether the failure was due to excessive stress that exceeded the material's rupture strength (断裂强度). By analyzing the conditions under which the failure occurred, they can determine if the material was appropriate for the application or if there were unforeseen factors that contributed to the failure.Moreover, advancements in technology have led to the development of new materials with enhanced rupture strength (断裂强度). For example, composite materials, which combine different substances to achieve superior properties, are increasingly used in various industries. These materials can provide higher rupture strength (断裂强度) while being lighter than traditional materials, offering significant advantages in applications such as aerospace and automotive engineering.In conclusion, rupture strength (断裂强度) is a fundamental property that engineers must consider when designing and analyzing materials for different applications. Its implications extend beyond mere numbers; understanding this property can lead to safer designs, more efficient use of materials, and ultimately, greater innovation in engineering practices. As technology continues to advance, the study of rupture strength (断裂强度) will remain a vital area of research, ensuring that materials keep up with the demands of modern engineering challenges.

断裂强度是材料的一项关键特性，决定了它们在失效前承受应力的能力。在工程和材料科学中，理解断裂强度的概念对于设计安全有效的结构至关重要。这一特性在建筑、制造和航空航天等行业尤为重要，因为材料在其生命周期内会受到各种力量的作用。进一步来说，断裂强度指的是材料在断裂或破裂前能够承受的最大拉伸应力。它通常以压力单位进行测量，例如帕斯卡（Pa）或每平方英寸磅（psi）。不同材料表现出不同水平的断裂强度，这可能受到温度、应变速率以及缺陷或杂质存在等因素的影响。例如，像钢这样的金属通常具有高断裂强度，使其适合用于承重应用。而橡胶等材料的断裂强度则要低得多，但因其灵活性和弹性而受到重视。理解这些差异对于工程师在选择特定应用的材料时至关重要。除了在材料选择中的重要性外，断裂强度在失效分析中也发挥着重要作用。当一个结构发生失效时，工程师往往会调查是否由于超过材料的断裂强度而导致失效。通过分析失效发生的条件，他们可以确定材料是否适合该应用，或者是否有不可预见的因素导致了失效。此外，科技的进步促使新材料的发展，其断裂强度得到了增强。例如，复合材料通过结合不同的物质以实现优越的特性，正越来越多地应用于各个行业。这些材料可以在比传统材料更轻的情况下提供更高的断裂强度，在航空航天和汽车工程等应用中提供显著优势。总之，断裂强度是工程师在设计和分析不同应用的材料时必须考虑的基本特性。它的影响超越了简单的数字；理解这一特性可以导致更安全的设计，更有效的材料使用，以及最终在工程实践中的更大创新。随着技术的不断进步，断裂强度的研究将继续成为一项重要的研究领域，确保材料能够满足现代工程挑战的需求。