machine drawing

简明释义

机械图机械制图

英英释义

例句

1.The engineer reviewed the machine drawing to ensure all specifications were met.

工程师审查了机械图纸以确保所有规格都符合要求。

2.Learning to read a machine drawing is essential for any aspiring mechanical engineer.

学习如何阅读机械图纸对任何有志于成为机械工程师的人来说都是必不可少的。

3.The machine drawing provided detailed dimensions for the new part.

该机械图纸提供了新零件的详细尺寸。

4.In our workshop, we often refer to machine drawings for accurate assembly instructions.

在我们的车间，我们经常参考机械图纸以获取准确的组装说明。

5.He used the machine drawing to identify the correct components needed for the project.

他使用机械图纸来识别项目所需的正确组件。

作文

In the modern age of technology and innovation, the field of engineering has become increasingly complex and specialized. One of the essential skills that every aspiring engineer must acquire is the ability to create precise and detailed representations of mechanical components and systems. This skill is commonly referred to as machine drawing, which encompasses the art and science of creating technical drawings that convey information about how machines are designed and constructed. machine drawing (机械制图) is not just a simple sketch; it is a comprehensive method of communication that allows engineers to share their ideas with manufacturers, builders, and other stakeholders involved in the production process.The significance of machine drawing (机械制图) can be seen in various industries, including automotive, aerospace, and manufacturing. In these fields, engineers rely heavily on technical drawings to ensure that their designs are accurately interpreted and executed. A well-executed machine drawing (机械制图) provides critical information such as dimensions, tolerances, materials, and assembly instructions. This level of detail helps to minimize errors during the manufacturing process, ultimately leading to higher quality products and reduced costs.One of the key aspects of machine drawing (机械制图) is the use of standardized symbols and conventions. Engineers must be familiar with these standards to effectively communicate their designs. For instance, different line types are used to represent various features, such as hidden edges or centerlines. Additionally, specific symbols indicate surface finishes, welding processes, and other important details. Mastery of these conventions is crucial for anyone looking to excel in the field of engineering.As technology continues to evolve, so does the practice of machine drawing (机械制图). The traditional hand-drawn techniques have largely been replaced by computer-aided design (CAD) software, which allows for greater precision and efficiency. CAD programs enable engineers to create 3D models that can be easily manipulated and analyzed. These models can then be converted into 2D machine drawings (机械制图), making it easier for teams to collaborate and share their work. Moreover, CAD software often includes tools for simulating how a machine will perform under various conditions, providing invaluable insights during the design phase.Despite the advancements in technology, the fundamental principles of machine drawing (机械制图) remain the same. Engineers must still understand the underlying concepts of geometry, physics, and material science to create effective designs. Furthermore, attention to detail is paramount; even the smallest error in a machine drawing (机械制图) can lead to significant problems during production. Therefore, aspiring engineers must cultivate a meticulous approach to their work, ensuring that every aspect of their drawings is accurate and clear.In conclusion, machine drawing (机械制图) is a vital skill for engineers that bridges the gap between conceptual ideas and tangible products. It requires a combination of technical knowledge, creativity, and precision. As industries continue to evolve, the importance of mastering machine drawing (机械制图) will only grow, making it an indispensable part of an engineer's toolkit. By honing this skill, future engineers will be well-equipped to tackle the challenges of designing and building the machines of tomorrow.

在现代科技和创新的时代，工程领域变得越来越复杂和专业化。每个有志于成为工程师的人必须掌握的一项基本技能是能够创建机械部件和系统的精确详细表示。这项技能通常被称为机械制图，它包括创建技术图纸的艺术和科学，这些图纸传达有关机器如何设计和构造的信息。机械制图不仅仅是简单的草图；它是一种全面的沟通方法，使工程师能够与制造商、建筑商和其他参与生产过程的利益相关者分享他们的想法。机械制图的重要性可以在汽车、航空航天和制造等各个行业中看到。在这些领域，工程师在很大程度上依赖技术图纸，以确保他们的设计被准确解读和执行。一份精心制作的机械制图提供了关键的信息，例如尺寸、公差、材料和组装说明。这种细节水平有助于在制造过程中最小化错误，从而最终提高产品质量并降低成本。机械制图的一个关键方面是使用标准化符号和惯例。工程师必须熟悉这些标准，以有效地传达他们的设计。例如，不同的线型用于表示各种特征，例如隐藏边缘或中心线。此外，特定符号指示表面处理、焊接工艺和其他重要细节。掌握这些惯例对于任何希望在工程领域中脱颖而出的人来说都是至关重要的。随着技术的不断发展，机械制图的实践也在不断演变。传统的手绘技术在很大程度上被计算机辅助设计（CAD）软件所取代，这使得精度和效率大大提高。CAD程序使工程师能够创建可以轻松操作和分析的3D模型。这些模型可以转换为2D的机械制图，使团队更容易协作和共享他们的工作。此外，CAD软件通常包含模拟机器在各种条件下表现的工具，为设计阶段提供了宝贵的见解。尽管技术有所进步，机械制图的基本原则仍然保持不变。工程师仍然必须理解几何学、物理学和材料科学的基本概念，以创建有效的设计。此外，注重细节至关重要；即使是机械制图中的最小错误也可能在生产过程中导致重大问题。因此，有志于成为工程师的人必须培养一种严谨的工作态度，确保他们图纸的每个方面都是准确和清晰的。总之，机械制图是工程师的一项重要技能，它弥合了概念思想与有形产品之间的鸿沟。它需要技术知识、创造力和精确性的结合。随着行业的不断发展，掌握机械制图的重要性只会增加，使其成为工程师工具箱中不可或缺的一部分。通过磨练这项技能，未来的工程师将能够很好地应对设计和建造明日机器的挑战。