sectional view

简明释义

剖视图

英英释义

例句

1.In the engineering report, a detailed sectional view 剖面图 of the pipeline was included to show its internal structure.

在工程报告中，包含了一幅详细的剖面图 剖面图，以展示管道的内部结构。

2.The teacher used a sectional view 剖面图 of a cell to explain its organelles to the students.

老师使用了一幅细胞的剖面图 剖面图来向学生解释其细胞器。

3.The manual includes a sectional view 剖面图 of the car engine for better understanding of its components.

手册中包括了一幅汽车发动机的剖面图 剖面图，以便更好地理解其组件。

4.For the furniture design, we created a sectional view 剖面图 to show the materials used in construction.

为了家具设计，我们制作了一幅剖面图 剖面图，以展示施工中使用的材料。

5.The architect presented a sectional view 剖面图 of the building to illustrate the layout of each floor.

建筑师展示了一幅剖面图 剖面图，以说明每层的布局。

作文

In the field of design and engineering, the concept of a sectional view is crucial for understanding the internal structure and components of an object. A sectional view is essentially a representation that shows what an object looks like when it is cut through a specific plane. This technique allows designers and engineers to illustrate complex details that are not visible from the outside. For example, in architectural drawings, a sectional view can reveal the arrangement of rooms, the height of ceilings, and the materials used in walls, which are all vital for construction and design planning.When creating a sectional view, one must decide where to 'cut' the object. This decision is often based on the need to display particular features or components clearly. For instance, if an engineer is designing a new type of engine, they might create a sectional view that cuts through the center of the engine block to show the arrangement of cylinders, pistons, and other critical parts. By examining this sectional view, engineers can better understand how the engine operates and identify any potential issues in the design.Moreover, the use of sectional views extends beyond engineering and architecture. In fields such as medicine, sectional views are utilized in imaging techniques like MRI and CT scans. These medical imaging technologies produce sectional views of the human body, allowing doctors to diagnose conditions with greater accuracy. For example, a CT scan may provide a sectional view of the abdomen, revealing tumors or abnormalities that would otherwise be difficult to detect.The importance of sectional views cannot be overstated. They serve as a bridge between two-dimensional representations and three-dimensional realities. By providing a clearer understanding of how different components interact within a space, sectional views enhance communication among architects, engineers, and medical professionals. Furthermore, they allow for better collaboration in interdisciplinary projects, where multiple experts need to work together to solve complex problems.In educational settings, teaching students about sectional views is essential for their development in technical fields. Students learn to interpret and create sectional views, which helps them visualize spatial relationships and understand the intricacies of design. This skill is particularly valuable for future architects and engineers, as it lays the foundation for more advanced concepts in their respective fields.In conclusion, the sectional view is a powerful tool in various disciplines, providing insights that are critical for effective design and analysis. Whether in engineering, architecture, or medicine, the ability to create and interpret sectional views enhances our understanding of complex structures and systems. As technology continues to advance, the methods for producing and utilizing sectional views will also evolve, leading to even greater precision and clarity in our visual representations of the world around us. Understanding the significance of sectional views is essential for anyone involved in these fields, as it equips them with the skills necessary to communicate ideas effectively and innovate solutions to real-world challenges.

在设计和工程领域，剖面图的概念对于理解物体的内部结构和组件至关重要。剖面图本质上是一个表示，它展示了当物体沿特定平面切割时的样子。这种技术允许设计师和工程师说明外部不可见的复杂细节。例如，在建筑图纸中，剖面图可以揭示房间的布局、天花板的高度以及墙壁使用的材料，这些都是施工和设计规划的重要因素。在创建剖面图时，必须决定在哪里“切割”物体。这个决定通常基于需要清晰地展示特定特征或组件。例如，如果一名工程师正在设计一种新型发动机，他们可能会创建一个切割通过发动机块中心的剖面图，以展示气缸、活塞和其他关键部件的排列。通过检查这个剖面图，工程师可以更好地理解发动机的运作，并识别设计中的潜在问题。此外，剖面图的使用不仅限于工程和建筑。在医学等领域，剖面图被用于MRI和CT扫描等成像技术。这些医学成像技术生成的人体剖面图，使医生能够更准确地诊断疾病。例如，CT扫描可能提供腹部的剖面图，揭示肿瘤或异常情况，这些情况在其他情况下很难被检测到。剖面图的重要性不容小觑。它们在二维表示和三维现实之间架起了一座桥梁。通过提供对不同组件如何在空间中相互作用的更清晰理解，剖面图增强了建筑师、工程师和医疗专业人员之间的沟通。此外，它们还促进了跨学科项目的更好合作，在这些项目中，多个专家需要共同努力解决复杂问题。在教育环境中，教导学生了解剖面图对于他们在技术领域的发展至关重要。学生学习如何解释和创建剖面图，这有助于他们可视化空间关系并理解设计的复杂性。这项技能对未来的建筑师和工程师特别有价值，因为它为他们各自领域中的更高级概念奠定了基础。总之，剖面图是各种学科中的强大工具，提供了对有效设计和分析至关重要的见解。无论是在工程、建筑还是医学领域，创建和解释剖面图的能力增强了我们对复杂结构和系统的理解。随着技术的不断进步，生成和利用剖面图的方法也将不断演变，从而在我们对周围世界的视觉表现中实现更大的精确性和清晰度。理解剖面图的重要性对于任何参与这些领域的人来说都是必不可少的，因为它赋予他们有效沟通思想和创新解决现实挑战所需的技能。