dimensioning

简明释义

[dɪˈmɛnʃənɪŋ][dɪˈmɛnʃənɪŋ]

n. 尺寸标注;量尺寸;标示尺寸

英英释义

The process of defining the size, shape, and location of features on a drawing or model.

在图纸或模型上定义特征的大小、形状和位置的过程。

A method used in engineering and architecture to convey information about measurements and tolerances.

在工程和建筑中用于传达有关测量和公差信息的方法。

单词用法

fractal dimension

分形维数;碎形維度

one dimension

一维,单面向

同义词

measuring

测量

Measuring the dimensions of the room is essential for renovation.

测量房间的尺寸对于翻新是至关重要的。

sizing

尺寸

Sizing the components correctly ensures a proper fit.

正确地确定组件的尺寸可以确保合适的配合。

specifying

指定

Specifying the dimensions in the design document is crucial.

在设计文档中指定尺寸是至关重要的。

quantifying

量化

Quantifying the dimensions helps in accurate estimations.

量化尺寸有助于准确估算。

反义词

undimensioned

未标注尺寸的

The design was left undimensioned, making it difficult to manufacture.

设计没有标注尺寸,导致制造困难。

indeterminate

不确定的

The problem remained indeterminate due to lack of specific measurements.

由于缺乏具体的测量,问题仍然是不确定的。

例句

1.View selections, dimensioning and technical requirements of parts.

零件的视图选择,尺寸注法及技术要求。

2.The paper mainly solves the problem of reasonable dimensioning parts with the help of the concept of dimension chain.

着重阐述了应用尺寸链的概念来解决零部件尺寸的合理标注问题。

3.View selections, dimensioning and technical requirements of assembly drawings.

装配图的视图选择、尺寸注法及技术要求。

4.Research and Realization of Capacity Dimensioning Algorithm for High Speed Wireless Link;

研究了反应条件对接枝率、交换容量和纤维强度的影响。

5.A method to build dimensioning model of 2 dimensional drawing based on undirected graph is presented.

提出了一种基于图结构描述的二维图形尺寸标注模型的建立及存储方法。

6.Let's review dimensioning by first looking at the code in Listing 1.

我们先通过清单1中的代码回顾一下维的概念。

7.Two-dimensioning power spectrums of engineering surfaces contain plenty of information that is important to surface characterization.

工程表面的二维功率谱包含了丰富的有关表面特征的重要信息。

8.As to the strategy of automatic dimensioning in CAD, in this paper, the authors put forward several ideas to solve the interference of the dimensions and tolerances.

现就尺寸及公差的无干涉自动标注问题提出了对零件及尺寸标注类型等进行统一分类编码、在视图内分区域标注等几点策略。

9.The design scope includes basic refrigeration calculations, pipe dimensioning and selection of refrigeration equipment.

设计范围包括制冷核算,管道尺寸和设备选型。

10.The architect spent hours dimensioning the blueprints to avoid any mistakes during construction.

建筑师花了几个小时来标注尺寸蓝图,以避免在施工过程中出现错误。

11.Proper dimensioning on technical drawings helps manufacturers produce accurate products.

技术图纸上的正确标注尺寸有助于制造商生产出精确的产品。

12.When dimensioning a product, it's important to consider the tolerances required.

标注尺寸产品时,考虑所需的公差是很重要的。

13.The software automatically adjusts dimensioning based on the selected materials.

该软件会根据所选材料自动调整标注尺寸

14.In engineering, dimensioning is crucial for ensuring that parts fit together correctly.

在工程中,标注尺寸 对于确保零件正确配合至关重要。

作文

In the world of design and engineering, the term dimensioning plays a crucial role in ensuring that objects are built accurately and function as intended. Dimensioning refers to the process of defining the size, shape, and location of features on a drawing or model. This practice is essential for conveying clear information to manufacturers and builders, allowing them to create products that meet specifications. Without proper dimensioning, the risk of errors increases significantly, leading to costly mistakes and potential safety hazards.When we consider the importance of dimensioning, it becomes evident that it serves multiple purposes. First and foremost, dimensioning provides a universal language that engineers and architects can use to communicate their ideas. For example, when an architect designs a building, they must include precise measurements for every element, from the height of the ceilings to the width of the doors. This level of detail ensures that contractors understand exactly what is required, reducing the likelihood of misinterpretation.Moreover, dimensioning facilitates the manufacturing process. In industries such as automotive or aerospace, where components must fit together perfectly, accurate dimensioning is non-negotiable. Engineers use various methods, such as linear dimensions, angular dimensions, and tolerances, to convey the necessary information. Each of these methods has its own set of rules and conventions, which professionals must adhere to in order to maintain consistency and clarity.Another aspect of dimensioning is its impact on quality control. When a product is manufactured, it is often subjected to inspections to ensure that it meets the defined specifications. By using the dimensioning provided in the original design, quality control personnel can measure the finished product and determine whether it falls within acceptable limits. If discrepancies are found, adjustments can be made before the product is delivered to the customer, thereby maintaining high standards of quality.In addition to traditional 2D drawings, modern technology has introduced new ways of dimensioning. Computer-aided design (CAD) software allows designers to create 3D models that can be dimensioned with precision. These digital models not only enhance visualization but also enable simulations to test how components will interact in real-world scenarios. As a result, dimensioning has evolved to become more dynamic, allowing for greater flexibility and innovation in design.Furthermore, the importance of dimensioning extends beyond engineering and architecture. It is also relevant in fields such as fashion design, graphic design, and even culinary arts. For instance, a fashion designer must accurately measure fabric to create garments that fit well, while a chef may need to consider dimensions when plating a dish attractively. In each case, dimensioning helps to achieve the desired outcome, whether it be a functional product, an aesthetically pleasing design, or a delicious meal.In conclusion, dimensioning is a fundamental aspect of various disciplines that require precision and clarity. Its role in facilitating communication, ensuring quality, and enabling innovative design cannot be overstated. As technology continues to advance, the methods and tools used for dimensioning will likely evolve, but the core principles will remain vital in creating successful outcomes across industries. Understanding and mastering the art of dimensioning is essential for anyone involved in design and production processes, as it lays the foundation for accuracy and excellence in their work.

在设计和工程的世界中,术语dimensioning扮演着至关重要的角色,确保物体的准确构建并按预期功能运作。Dimensioning指的是在图纸或模型上定义特征的大小、形状和位置的过程。这一实践对于向制造商和建筑商传达清晰信息至关重要,使他们能够创建符合规格的产品。如果没有适当的dimensioning,错误的风险显著增加,导致昂贵的错误和潜在的安全隐患。当我们考虑dimensioning的重要性时,很明显它有多个目的。首先,dimensioning提供了一种通用语言,工程师和建筑师可以用来交流他们的想法。例如,当一位建筑师设计一座建筑时,他们必须为每个元素包括精确的测量,从天花板的高度到门的宽度。这种细节水平确保承包商完全理解所需的内容,从而减少误解的可能性。此外,dimensioning促进了制造过程。在汽车或航空航天等行业,组件必须完美契合,准确的dimensioning是不可妥协的。工程师使用多种方法,如线性尺寸、角度尺寸和公差,来传达必要的信息。这些方法各有自己的规则和惯例,专业人员必须遵循以保持一致性和清晰性。Dimensioning的另一个方面是其对质量控制的影响。当产品被制造出来时,通常会进行检查,以确保其符合定义的规格。通过使用原始设计中提供的dimensioning,质量控制人员可以测量成品,并确定其是否在可接受的范围内。如果发现差异,可以在产品交付给客户之前进行调整,从而保持高标准的质量。除了传统的二维图纸,现代技术还引入了新的dimensioning方式。计算机辅助设计(CAD)软件允许设计师创建可以精确标注的三维模型。这些数字模型不仅增强了可视化,还使得进行模拟以测试组件在现实场景中的相互作用成为可能。因此,dimensioning已经发展为更加动态的过程,允许在设计中实现更大的灵活性和创新。此外,dimensioning的重要性超越了工程和建筑。它在时尚设计、平面设计甚至烹饪艺术等领域也同样相关。例如,时尚设计师必须准确测量面料,以制作合身的服装,而厨师在摆盘时可能需要考虑尺寸的美观。在每种情况下,dimensioning都有助于实现所需的结果,无论是功能性产品、美观的设计还是美味的餐点。总之,dimensioning是各种需要精确和清晰的学科的基本方面。它在促进沟通、确保质量和推动创新设计中的作用不容小觑。随着技术的不断进步,用于dimensioning的方法和工具可能会发展,但核心原则在各个行业成功成果的创造中将始终至关重要。理解和掌握dimensioning的艺术对任何参与设计和生产过程的人来说都是必不可少的,因为它为他们工作的准确性和卓越奠定了基础。