burst collapse pressure

简明释义

破坏—坍塌压力;

英英释义

例句

1.In the testing phase, we monitored the burst collapse pressure 破裂坍塌压力 to determine the material's limits.

在测试阶段，我们监测了破裂坍塌压力以确定材料的极限。

2.The burst collapse pressure 破裂坍塌压力 of the new composite material exceeded our expectations during the trials.

新复合材料的破裂坍塌压力在试验中超出了我们的预期。

3.The engineer calculated the burst collapse pressure 破裂坍塌压力 of the pipeline to ensure its safety under high stress conditions.

工程师计算了管道的破裂坍塌压力以确保其在高应力条件下的安全性。

4.Safety regulations require that all vessels be tested for burst collapse pressure 破裂坍塌压力 before being put into service.

安全法规要求所有容器在投入使用前必须测试破裂坍塌压力。

5.Understanding the burst collapse pressure 破裂坍塌压力 is crucial for designing safe storage tanks.

理解破裂坍塌压力对于设计安全的储存罐至关重要。

作文

Understanding the concept of burst collapse pressure is essential in various fields such as engineering, materials science, and safety management. This term refers to the pressure at which a material or structure fails due to an internal or external force, leading to a sudden rupture or collapse. To delve deeper into this concept, we need to explore its significance, applications, and implications.First and foremost, the importance of burst collapse pressure lies in its role in ensuring safety and reliability in engineering designs. For instance, when engineers design pipelines, they must consider the maximum pressure that the pipeline can withstand before it bursts. This involves calculating the burst collapse pressure to prevent catastrophic failures that could lead to leaks, explosions, or environmental disasters. In this context, understanding the factors that influence this pressure, such as material properties, temperature, and external loads, is crucial for creating safe and efficient systems.Moreover, burst collapse pressure is not only relevant in the design phase but also in maintenance and inspection processes. Regular monitoring of pressure levels in systems like gas pipelines or chemical storage tanks is necessary to ensure that they operate within safe limits. If the pressure approaches the calculated burst collapse pressure, immediate action must be taken to mitigate risks. This proactive approach can save lives and prevent significant financial losses.In addition to engineering, the concept of burst collapse pressure is applicable in various scientific research areas. For example, in materials science, researchers study how different materials behave under stress to determine their burst collapse pressure. This knowledge is vital for developing new materials that can withstand extreme conditions, such as aerospace components that must endure high pressures during flight.Furthermore, industries such as pharmaceuticals and food processing also take burst collapse pressure into account. In these sectors, pressure vessels are used to create environments conducive to chemical reactions or preservation processes. Understanding the burst collapse pressure of these vessels ensures that they operate safely and effectively, preventing accidents that could harm workers or compromise product integrity.On a broader scale, the implications of burst collapse pressure extend to regulatory frameworks and standards. Governments and organizations establish guidelines that dictate the acceptable limits for pressure in various applications. Compliance with these regulations is critical for manufacturers and operators to maintain safety and avoid legal repercussions. As technology advances, the standards related to burst collapse pressure may evolve, necessitating continuous education and adaptation from professionals in the field.In conclusion, the concept of burst collapse pressure is fundamental to many disciplines, highlighting the need for thorough understanding and application. From engineering designs to safety protocols, recognizing and calculating this pressure is vital for preventing failures and ensuring the integrity of systems. As industries continue to innovate and develop new technologies, the relevance of burst collapse pressure will remain significant, underscoring the importance of ongoing research and education in this area. By prioritizing safety and understanding the complexities of pressure dynamics, we can work towards creating a safer environment for all.

理解“burst collapse pressure”这一概念在工程、材料科学和安全管理等多个领域至关重要。这个术语指的是材料或结构因内外力的作用而发生突然破裂或崩溃的压力。深入探讨这一概念，我们需要了解它的重要性、应用和影响。首先，“burst collapse pressure”的重要性体现在其在确保工程设计的安全性和可靠性方面的作用。例如，当工程师设计管道时，他们必须考虑管道在破裂之前能够承受的最大压力。这涉及到计算“burst collapse pressure”，以防止可能导致泄漏、爆炸或环境灾难的灾难性故障。在这种情况下，了解影响该压力的因素，如材料特性、温度和外部载荷，对于创建安全高效的系统至关重要。此外，“burst collapse pressure”不仅与设计阶段相关，还与维护和检查过程密切相关。定期监测气体管道或化学储罐等系统中的压力水平是确保它们在安全限制内运行的必要条件。如果压力接近计算出的“burst collapse pressure”，必须立即采取措施以降低风险。这种主动的方法可以挽救生命并防止重大经济损失。除了工程领域，“burst collapse pressure”的概念在多个科学研究领域也适用。例如，在材料科学中，研究人员研究不同材料在应力下的表现，以确定它们的“burst collapse pressure”。这一知识对于开发能够承受极端条件的新材料至关重要，例如在飞行过程中必须承受高压的航空航天组件。此外，制药和食品加工等行业也考虑“burst collapse pressure”。在这些行业中，压力容器用于创造有利于化学反应或保存过程的环境。了解这些容器的“burst collapse pressure”确保它们安全有效地运行，防止可能危害工人或妨碍产品完整性的事故。从更广泛的角度来看，“burst collapse pressure”的影响延伸到监管框架和标准。政府和组织制定指导方针，规定各种应用中可接受的压力限制。遵守这些法规对制造商和操作员维持安全性和避免法律后果至关重要。随着技术的进步，与“burst collapse pressure”相关的标准可能会演变，这要求该领域的专业人士不断学习和适应。总之，“burst collapse pressure”的概念在许多学科中都是基础，强调了深入理解和应用的必要性。从工程设计到安全协议，识别和计算这一压力对于防止故障和确保系统的完整性至关重要。随着各行业继续创新和开发新技术，“burst collapse pressure”的相关性将始终显著，突显出在这一领域持续研究和教育的重要性。通过优先考虑安全并理解压力动态的复杂性，我们可以努力为所有人创造一个更安全的环境。