technical order

简明释义

技术规程技术条令

英英释义

A technical order is a formal document or directive that specifies the technical requirements, procedures, and standards necessary for the execution of a project or task.

技术指令是一个正式文件或指令,规定了执行项目或任务所需的技术要求、程序和标准。

例句

1.The contractor received a technical order to modify the building plans.

承包商收到了一份技术命令以修改建筑计划。

2.All team members must adhere to the technical order during the implementation phase.

所有团队成员在实施阶段必须遵守技术命令

3.The engineer issued a technical order for the new software installation.

工程师发布了一份技术命令用于新的软件安装。

4.Before proceeding with the project, we need to review the technical order carefully.

在继续项目之前,我们需要仔细审查技术命令

5.The technical order specifies the requirements for the equipment upgrade.

这份技术命令详细说明了设备升级的要求。

作文

In the modern world, where technology plays a pivotal role in almost every aspect of our lives, understanding the concept of technical order is essential. A technical order refers to a systematic arrangement or organization of technical elements that facilitate the functioning of complex systems, whether they are related to engineering, software development, or even scientific research. This concept is not only relevant in professional settings but also in everyday scenarios where technology intersects with our daily tasks.To illustrate the importance of technical order, consider the field of software development. In this domain, maintaining a technical order is crucial for ensuring that code is written, tested, and deployed efficiently. Developers often utilize various frameworks and methodologies, such as Agile or Scrum, to create a structured approach to their work. By adhering to these frameworks, teams can maintain a clear technical order that enhances collaboration and reduces the likelihood of errors. This organized approach allows for smoother project management and ultimately leads to higher quality software products.Furthermore, in engineering projects, the concept of technical order becomes even more critical. Engineers must follow strict guidelines and protocols to ensure that all components of a project function harmoniously. For instance, when constructing a bridge, engineers must consider various factors such as materials, load-bearing capacities, and environmental impacts. Each of these elements must be arranged in a specific technical order to guarantee the safety and stability of the structure. Any deviation from this order could lead to catastrophic failures, highlighting the significance of maintaining a proper technical order in engineering practices.Moreover, the scientific community also relies heavily on technical order. Researchers must follow a systematic process when conducting experiments, analyzing data, and publishing findings. The scientific method itself embodies a form of technical order, where hypotheses are tested, results are documented, and conclusions are drawn based on empirical evidence. This structured approach ensures that scientific inquiry remains rigorous and credible, allowing for advancements in knowledge and technology.In our everyday lives, we encounter technical order in various forms, from the way we organize our digital files to how we set up our smart home devices. For example, when managing files on a computer, users often create folders and subfolders to maintain a technical order that makes it easier to locate important documents. Similarly, when programming smart home devices, users must follow specific instructions to ensure that each device communicates effectively with others, creating a seamless and efficient environment.In conclusion, the concept of technical order transcends various fields and aspects of our lives. Whether in software development, engineering, scientific research, or everyday technology use, maintaining a proper technical order is crucial for achieving efficiency, safety, and reliability. As we continue to navigate an increasingly complex technological landscape, understanding and implementing technical order will be vital for both professionals and individuals alike. Embracing this concept can lead to more effective problem-solving and innovation, ultimately enhancing our interaction with technology in meaningful ways.

在现代社会,技术在我们生活的几乎每个方面都发挥着重要作用,因此理解“technical order”这一概念至关重要。“technical order”指的是技术元素的系统性排列或组织,这些元素促进了复杂系统的运作,无论这些系统与工程、软件开发还是科学研究有关。这一概念不仅在专业环境中相关,在日常场景中,当技术与我们的日常任务交叉时,也同样重要。为了说明“technical order”的重要性,可以考虑软件开发领域。在这个领域,保持“technical order”对确保代码的高效编写、测试和部署至关重要。开发人员通常利用各种框架和方法论,如敏捷开发或Scrum,来创建一种结构化的工作方式。通过遵循这些框架,团队可以保持清晰的“technical order”,从而增强协作并减少错误的可能性。这种有组织的方法使项目管理更加顺利,最终导致更高质量的软件产品。此外,在工程项目中,“technical order”的概念变得更加关键。工程师必须遵循严格的指导方针和协议,以确保项目的所有组件协调运作。例如,在建造桥梁时,工程师必须考虑材料、承载能力和环境影响等各种因素。每个元素都必须以特定的“technical order”进行排列,以保证结构的安全性和稳定性。任何偏离这种顺序的行为都可能导致灾难性的失败,这凸显了在工程实践中保持适当的“technical order”的重要性。此外,科学界也在很大程度上依赖于“technical order”。研究人员在进行实验、分析数据和发布研究结果时,必须遵循一个系统的过程。科学方法本身就体现了一种“technical order”,在这个过程中,假设被检验,结果被记录,结论基于实证证据得出。这种结构化的方法确保了科学探究的严谨性和可信性,从而推动了知识和技术的进步。在我们的日常生活中,我们以各种形式遇到“technical order”,从我们如何组织数字文件到我们如何设置智能家居设备。例如,当管理计算机上的文件时,用户通常会创建文件夹和子文件夹,以保持“technical order”,这样更容易找到重要文件。同样,在编程智能家居设备时,用户必须遵循特定的说明,以确保每个设备能够有效地与其他设备通信,从而创建一个无缝高效的环境。总之,“technical order”的概念超越了各个领域和我们生活的各个方面。无论是在软件开发、工程、科学研究还是日常技术使用中,保持适当的“technical order”对实现效率、安全性和可靠性至关重要。在我们继续应对日益复杂的技术环境时,理解和实施“technical order”对于专业人士和个人来说都是至关重要的。接受这一概念可以导致更有效的问题解决和创新,从而在有意义的方式上增强我们与技术的互动。