stereotomy

简明释义

[ˌsterɪˈɒtəmi][ˌsteriˈɑːtəmi]

切石法

实体物切割术

英英释义

The art or process of cutting materials into specific shapes and forms, especially in the context of stone or masonry work.

将材料切割成特定形状和形式的艺术或过程,特别是在石材或砌筑工作中。

单词用法

three-dimensional stereotomy

三维立体切割

geometric stereotomy

几何立体切割

advanced stereotomy

高级立体切割

stereotomy process

立体切割过程

applications of stereotomy

立体切割的应用

stereotomy in architecture

建筑中的立体切割

同义词

cutting

切割

The cutting of stone for architectural purposes is an ancient practice.

石材的切割用于建筑目的是一种古老的做法。

sectioning

切片

Sectioning materials can help in understanding their internal structure.

对材料进行切片有助于理解其内部结构。

carving

雕刻

Carving intricate designs into wood is a form of artistic expression.

在木材上雕刻复杂的图案是一种艺术表达形式。

反义词

additive manufacturing

增材制造

Additive manufacturing allows for the creation of complex geometries without the need for extensive tooling.

增材制造允许在不需要大量工具的情况下创建复杂的几何形状。

3D printing

3D 打印

3D printing is a popular method for prototyping and producing custom parts.

3D 打印是一种流行的原型制作和生产定制零件的方法。

例句

1.Its stereotomy having been designed.

它的实体物切割术已经设计好了。

2.The reinforced concrete walls will contain an exterior finishing with special formwork, its stereotomy having been designed.

钢筋混凝土墙将用特殊模板做外观处理,块材的分割也经过了事先设计。

3.The reinforced concrete walls will contain an exterior finishing with special formwork, its stereotomy having been designed.

钢筋混凝土墙将用特殊模板做外观处理,块材的分割也经过了事先设计。

4.Artists often employ stereotomy techniques to enhance their sculptures.

艺术家们经常采用立体切割技术来增强他们的雕塑作品。

5.The process of stereotomy is essential for creating detailed architectural models.

进行立体切割的过程对于创建详细的建筑模型至关重要。

6.The architect used stereotomy to design intricate stone carvings for the new building.

建筑师使用立体切割设计新建筑的复杂石雕。

7.In modern construction, stereotomy allows for precise cutting of materials.

在现代建筑中,立体切割允许对材料进行精确切割。

8.The study of stereotomy dates back to ancient civilizations that worked with stone.

立体切割的研究可以追溯到古代文明,他们从事石材工作。

作文

The art and science of architecture have always relied on innovative techniques to create structures that are not only functional but also aesthetically pleasing. One such technique that has gained recognition in recent years is stereotomy, which refers to the cutting of solid materials, particularly stone, into specific shapes for construction purposes. This method has been utilized since ancient times, allowing architects and builders to manipulate heavy materials with precision and creativity. The term itself is derived from the Greek words 'stereos', meaning solid, and 'tomia', meaning to cut. Thus, stereotomy can be understood as the practice of shaping solid objects through careful cutting and crafting.Historically, stereotomy played a crucial role in the construction of monumental structures like cathedrals, bridges, and sculptures. For instance, the intricate stone carvings found in Gothic cathedrals were made possible through this technique. Architects and stonemasons would meticulously plan their designs, calculating the angles and dimensions necessary to achieve the desired aesthetic effect while ensuring structural integrity. This process often involved the use of templates and models, allowing craftsmen to visualize the final product before beginning the actual cutting.In modern architecture, stereotomy continues to be relevant, especially with the advent of advanced technology and materials. With the introduction of computer-aided design (CAD) software and CNC (Computer Numerical Control) machines, architects can now create complex shapes and patterns with unprecedented accuracy. This allows for greater creative freedom, as designers can experiment with forms that were previously deemed impractical or impossible to achieve using traditional methods. The integration of stereotomy with modern technology has led to the emergence of new architectural styles that challenge conventional notions of form and space.Moreover, stereotomy is not limited to stone alone; it can also be applied to other materials such as wood, metal, and even concrete. The versatility of this technique opens up a myriad of possibilities for architects and designers, enabling them to explore innovative solutions to contemporary challenges. For example, in sustainable architecture, stereotomy can be used to create lightweight structures that minimize material usage without compromising strength. This aligns with the growing emphasis on sustainability in the built environment, where reducing waste and energy consumption is paramount.In conclusion, stereotomy is a vital technique in the field of architecture that bridges the gap between tradition and innovation. Its historical significance cannot be overstated, as it has shaped some of the most iconic structures in human history. Today, as we face new challenges in design and construction, the principles of stereotomy continue to inspire architects to push the boundaries of what is possible. By embracing both traditional craftsmanship and modern technology, we can create buildings that are not only visually stunning but also sustainable and functional, ensuring that architecture remains a vital part of our cultural heritage for generations to come.

建筑艺术和科学一直依赖于创新技术,以创造既实用又美观的结构。近年来,获得认可的一种技术是立体切割,它指的是将固体材料,特别是石头,切割成特定形状以用于建筑目的。这种方法自古以来就被使用,使建筑师和工匠能够精确而富有创意地操纵重型材料。该术语本身源于希腊词汇“stereos”,意为固体,以及“tomia”,意为切割。因此,立体切割可以理解为通过精心切割和制作来塑造固体物体的实践。历史上,立体切割在建设纪念性建筑如大教堂、桥梁和雕塑方面发挥了至关重要的作用。例如,哥特式大教堂中发现的复杂石雕正是通过这一技术实现的。建筑师和石匠会细致规划他们的设计,计算出实现所需美学效果的角度和尺寸,同时确保结构的完整性。这个过程通常涉及使用模板和模型,使工匠能够在开始实际切割之前可视化最终产品。在现代建筑中,立体切割仍然相关,特别是在先进技术和材料出现的背景下。随着计算机辅助设计(CAD)软件和计算机数控(CNC)机器的引入,建筑师现在可以以前所未有的精确度创建复杂的形状和图案。这为更大的创造自由打开了大门,因为设计师可以尝试以前被认为不切实际或不可能实现的形式。立体切割与现代技术的结合促成了新的建筑风格的出现,这些风格挑战了传统的形式和空间观念。此外,立体切割不仅限于石材;它还可以应用于其他材料,如木材、金属甚至混凝土。这种技术的多功能性为建筑师和设计师开辟了无数可能性,使他们能够探索创新解决方案来应对当代挑战。例如,在可持续建筑中,立体切割可以用于创建轻量结构,最大限度地减少材料使用而不妥协强度。这与在建筑环境中日益增长的可持续性强调相一致,减少浪费和能耗至关重要。总之,立体切割是建筑领域中的一项重要技术,它弥合了传统与创新之间的鸿沟。它的历史意义不容小觑,因为它塑造了一些人类历史上最具标志性的结构。今天,随着我们面临设计和施工的新挑战,立体切割的原则继续激励建筑师突破可能性的界限。通过同时拥抱传统工艺和现代技术,我们可以创造出不仅在视觉上令人惊叹,而且可持续且功能齐全的建筑,确保建筑在我们文化遗产中作为一个重要部分延续到未来几代人。