ASME Code

简明释义

美国机械工程师学会标准

英英释义

例句

1.Before installation, the piping system must comply with the ASME Code (美国机械工程师学会规范) for pressure design.

在安装之前，管道系统必须符合ASME Code (美国机械工程师学会规范) 的压力设计要求。

2.The pressure vessel was designed in accordance with the ASME Code (美国机械工程师学会规范) to ensure safety and reliability.

该压力容器按照ASME Code (美国机械工程师学会规范) 进行设计，以确保安全性和可靠性。

3.Our team conducted a thorough review of the ASME Code (美国机械工程师学会规范) to ensure compliance in our manufacturing process.

我们的团队对ASME Code (美国机械工程师学会规范) 进行了全面审查，以确保我们制造过程的合规性。

4.For new boiler installations, adherence to the ASME Code (美国机械工程师学会规范) is mandatory.

对于新的锅炉安装，遵守ASME Code (美国机械工程师学会规范) 是强制性的。

5.During the audit, the inspector checked if all welds met the standards set by the ASME Code (美国机械工程师学会规范).

在审计过程中，检查员检查了所有焊缝是否符合ASME Code (美国机械工程师学会规范) 设定的标准。

作文

The engineering world is vast and complex, filled with numerous standards and codes that ensure safety, quality, and reliability. One of the most significant of these is the ASME Code, which stands for the American Society of Mechanical Engineers Code. This code plays a crucial role in establishing guidelines for the design, construction, and inspection of pressure vessels, boilers, and other mechanical systems. Understanding the ASME Code is essential for engineers and professionals in the industry, as it not only dictates how these systems should be built but also helps prevent catastrophic failures that could endanger lives and property.The ASME Code was first developed in the early 20th century in response to the increasing use of steam boilers and pressure vessels. Over time, it has evolved into a comprehensive set of standards that cover various aspects of mechanical engineering. The code is divided into several sections, each addressing specific areas such as materials, design, fabrication, and inspection. For instance, Section VIII deals with pressure vessels, while Section I focuses on power boilers. By adhering to the ASME Code, engineers can ensure that their designs meet the rigorous safety and performance standards required by the industry.One of the most important aspects of the ASME Code is its emphasis on safety. The code outlines specific requirements for materials, design calculations, and testing procedures that must be followed to minimize the risk of failure. For example, it specifies the types of materials that can be used in pressure vessel construction and provides guidelines for determining the thickness of vessel walls based on the operating pressure and temperature. By following these guidelines, engineers can create systems that are not only efficient but also safe for operation.In addition to safety, the ASME Code also promotes consistency and quality in engineering practices. By providing a standardized set of guidelines, it ensures that engineers across the industry are working from the same framework. This consistency is particularly important in large-scale projects where multiple teams may be involved in the design and construction process. When everyone adheres to the ASME Code, it reduces the likelihood of errors and discrepancies, ultimately leading to a higher quality final product.Moreover, compliance with the ASME Code is often a legal requirement in many jurisdictions. Regulatory bodies may mandate that certain systems, such as boilers and pressure vessels, meet the standards set forth in the code. Failure to comply can result in fines, shutdowns, or even legal action in the event of an accident. Therefore, understanding and applying the ASME Code is not just a matter of best practices; it is a critical component of professional responsibility for engineers.In conclusion, the ASME Code is an essential framework that governs the design, construction, and inspection of mechanical systems. Its focus on safety, quality, and consistency makes it a vital resource for engineers in the field. By familiarizing themselves with the ASME Code, professionals can ensure that they are not only meeting industry standards but also protecting the health and safety of the public. As engineering continues to evolve, the ASME Code will undoubtedly remain a cornerstone of mechanical engineering practice, guiding future innovations and advancements in the field.

工程领域广阔而复杂，充满了无数标准和规范，以确保安全、质量和可靠性。其中最重要的之一就是ASME Code，即美国机械工程师协会规范。该规范在建立压力容器、锅炉和其他机械系统的设计、建造和检验指南方面发挥着关键作用。理解ASME Code对于工程师和行业专业人士至关重要，因为它不仅规定了这些系统的构建方式，还帮助防止可能危及生命和财产的灾难性故障。ASME Code最初是在20世纪初为应对蒸汽锅炉和压力容器的日益使用而制定的。随着时间的推移，它发展成为一套全面的标准，涵盖了机械工程的各个方面。该规范分为几个部分，每个部分针对特定领域，如材料、设计、制造和检验。例如，第八部分涉及压力容器，而第一部分则关注动力锅炉。通过遵循ASME Code，工程师可以确保他们的设计符合行业要求的严格安全和性能标准。ASME Code最重要的一个方面是其对安全的重视。该规范概述了必须遵循的材料、设计计算和测试程序的具体要求，以尽量减少故障风险。例如，它规定了可以用于压力容器建造的材料类型，并提供了根据操作压力和温度确定容器壁厚的指南。通过遵循这些指南，工程师可以创建不仅高效而且安全的系统。除了安全性，ASME Code还促进了工程实践的一致性和质量。通过提供一套标准化的指南，它确保了整个行业的工程师都在同一框架下工作。这种一致性在大型项目中尤为重要，因为多个团队可能参与设计和施工过程。当每个人都遵循ASME Code时，就减少了错误和差异的可能性，最终导致更高质量的最终产品。此外，在许多司法管辖区，遵守ASME Code通常是法律要求。监管机构可能会强制要求某些系统（如锅炉和压力容器）符合该规范中设定的标准。不遵守可能会导致罚款、停工或在发生事故时甚至法律诉讼。因此，理解和应用ASME Code不仅是最佳实践问题；它是工程师职业责任的重要组成部分。总之，ASME Code是一套管理机械系统设计、建造和检验的基本框架。它对安全、质量和一致性的关注使其成为该领域工程师的重要资源。通过熟悉ASME Code，专业人士可以确保他们不仅满足行业标准，还保护公众的健康和安全。随着工程的不断发展，ASME Code无疑将继续作为机械工程实践的基石，引导该领域未来的创新和进步。