lofting
简明释义
n. (船体等线形图的)放样;理论模线的绘制
v. 向高处击;使(高尔夫球棒击球端)向后倾斜(loft的现在分词)
n. (Lofting)(英、美)洛夫廷(人名)
英英释义
单词用法
三维lofting | |
lofting过程 | |
lofting软件 | |
进行lofting | |
lofting技术 | |
精确的lofting |
同义词
| 升高 | The elevation of the ceiling gave the room a more spacious feel. | 天花板的升高让房间感觉更加宽敞。 | |
| 抬起 | Raising the platform allowed for better visibility during the event. | 抬高平台使得在活动期间视野更好。 | |
| 举起 | 抬起重箱子需要团队合作。 |
反义词
| 降低 | 屋顶的降低让房间感觉狭小。 | ||
| 减少 | Diminishing returns can occur when you invest too much effort into a project. | 当你在一个项目上投入过多的努力时,可能会出现收益递减。 |
例句
1.In this paper, the lofting and manufacture methods of platform as well as the lofting calculation of winding ladder in large tanks with inner and outer side baffles were introduced.
本文介绍了具有内外侧板的大型贮罐盘梯放样的数学计算、地面平台放样与制造的方法。
2.But where the topography is changed during the construction of road bed, the method could not be used directly in the second road bed lofting from the design variation.
但在路基施工地形改变后,由于设计变更而进行的二次路基放样中,逐点接近法则不能得到直接利用。
3.Tile laying on the surface with a high position, a steep slope and a complex spatial shape, is difficult to the measurement, lofting and cutting of the tiles.
位置高、坡度大、空间复杂的瓦片铺设面往往给瓦片测量、放样、下料带来困难。
4.And lofting with polar coordinates method can break through localization of deflection Angle method.
使用极坐标法放样可以避免偏角法的局限性。
5.By means of the existing measurement control points on the ground elevation for lofting, determine the excavation depth.
利用已有的丈量控制点对原地面高程进行放样,确定开挖深度。
6.Compared with the traditional lofting methods, the marking scriber has the advantages of high efficiency, convenient operation, accurate intersecting lines, and regular intersecting lines.
使用本划规与传统的放样方法相比,效率高,操作简便,且画出的相贯线准确、规整。
7.No matter where they walked, they could hear the thudding of the catapults lofting rocks.
不论走到哪儿,他们都能听到投石机的抛掷石头时发出巨响。
8.Using lofting, the designer was able to refine the curves of the car body.
通过使用lofting,设计师能够完善汽车车身的曲线。
9.The process of lofting allows engineers to visualize complex shapes.
lofting过程使工程师能够可视化复杂形状。
10.The team spent hours on lofting to ensure the aircraft wings were perfectly shaped.
团队花了数小时进行lofting以确保飞机机翼的形状完美。
11.In boat design, lofting helps in translating plans into full-scale drawings.
在船只设计中,lofting有助于将计划转换为全尺寸图纸。
12.The architect used lofting to create a detailed model of the new building.
建筑师使用lofting来创建新建筑的详细模型。
作文
In the world of design and architecture, precision is key. One of the critical processes that ensure this precision is known as lofting. Lofting is a technique used to create full-scale representations of a design, particularly in shipbuilding and aircraft manufacturing. This method allows designers to translate their ideas from two-dimensional sketches into three-dimensional forms accurately. By utilizing lofting, architects and engineers can visualize the curves and lines of their designs, making it easier to identify potential issues before construction begins.The process of lofting typically involves taking measurements from the original design and then plotting those measurements onto a larger surface, such as a board or a computer screen. This can be done manually or with the aid of software that specializes in 3D modeling. The goal is to produce a set of templates or patterns that can be used for cutting materials or building structures. In shipbuilding, for example, lofting helps in creating the hull shape, ensuring that it is hydrodynamic and structurally sound.One of the significant advantages of lofting is that it allows for adjustments and modifications to be made during the design phase. If a designer notices that a particular curve does not look right or that the dimensions do not fit as intended, they can easily make changes on the lofted model without the need to start over from scratch. This flexibility can save time and resources, which is invaluable in any project.Moreover, lofting is not limited to just ships and airplanes. It is also widely used in the automotive industry, where the design of vehicles requires intricate shapes and aerodynamics. By employing lofting, automotive engineers can ensure that the body of a car is both aesthetically pleasing and functional. The same principles apply to furniture design, where lofting can help create unique and ergonomic shapes that enhance user experience.In recent years, technology has further revolutionized the practice of lofting. With the advent of computer-aided design (CAD) software, designers can now perform lofting with greater accuracy and speed. This digital transformation allows for more complex designs to be created and tested virtually before any physical work takes place. As a result, the efficiency of the design process has increased significantly, leading to faster project completion times.However, despite the technological advancements, the fundamental principles of lofting remain the same. Understanding the geometry and mathematics behind lofting is crucial for anyone involved in design and engineering. It requires a keen eye for detail and a solid grasp of spatial relationships. Those who master this skill are often regarded as highly valuable in their fields, as they can bridge the gap between creative vision and practical implementation.In conclusion, lofting is an essential technique in various design disciplines. Its ability to transform two-dimensional ideas into three-dimensional realities makes it invaluable for architects, engineers, and designers alike. As technology continues to evolve, the methods of lofting will likely become even more sophisticated, but the core principles will always remain relevant. Embracing lofting not only enhances the quality of designs but also contributes to the overall success of any project.
在设计和建筑的世界中,精确性是关键。确保这种精确性的一个重要过程被称为lofting。Lofting是一种用于创建设计全尺寸表示的技术,特别是在造船和飞机制造中。这种方法允许设计师将他们的想法从二维草图准确地转化为三维形态。通过利用lofting,建筑师和工程师可以可视化他们设计的曲线和线条,使得在施工开始之前更容易识别潜在问题。Lofting的过程通常涉及从原始设计中获取测量数据,然后将这些测量数据绘制到一个更大的表面上,如板或计算机屏幕。这可以手动完成,也可以借助专门用于三维建模的软件完成。目标是产生一套模板或图案,可用于切割材料或构建结构。在造船中,例如,lofting有助于创建船体形状,确保其流线型和结构稳固。Lofting的一个显著优势是,它允许在设计阶段进行调整和修改。如果设计师注意到某个曲线看起来不对劲,或者尺寸不符合预期,他们可以轻松地在立体模型上进行更改,而无需重新开始。这种灵活性可以节省时间和资源,这在任何项目中都是无价的。此外,lofting并不仅限于船舶和飞机。它还广泛应用于汽车工业,在那里,车辆的设计需要复杂的形状和空气动力学。通过采用lofting,汽车工程师可以确保汽车车身既美观又实用。同样的原则也适用于家具设计,在那里,lofting可以帮助创造独特且符合人体工程学的形状,从而提升用户体验。近年来,技术进一步革新了lofting的实践。随着计算机辅助设计(CAD)软件的出现,设计师现在可以以更高的准确性和速度进行lofting。这种数字化转型使得可以创建更复杂的设计并在任何物理工作开始之前进行虚拟测试。因此,设计过程的效率显著提高,导致项目完成时间更快。然而,尽管技术不断进步,lofting的基本原理依然不变。理解lofting背后的几何和数学对于任何参与设计和工程的人来说都是至关重要的。这需要对细节有敏锐的观察力,并对空间关系有扎实的掌握。那些掌握这一技能的人通常在他们的领域被视为极具价值,因为他们能够弥合创意愿景与实际实施之间的差距。总之,lofting是各个设计学科中的一项重要技术。它将二维想法转化为三维现实的能力使其对建筑师、工程师和设计师而言不可或缺。随着技术的不断发展,lofting的方法可能会变得更加复杂,但核心原则将始终保持相关。拥抱lofting不仅提升设计质量,还促进任何项目的整体成功。
