castable
简明释义
adj. 可铸的;可塑的
n. [材] 可浇铸材料
英英释义
能够通过倒入模具来形成或塑造的。 | |
Referring to materials that can be cast, especially in manufacturing or construction processes. | 指可以铸造的材料,特别是在制造或建筑过程中。 |
单词用法
n. 耐火浆料;浇灌耐火材料 |
同义词
反义词
例句
1.The characteristic of castable refractory was advanced by analyzing the service conditions on Water-cooled Beam of heating furnace in this paper.
通过对加热炉水冷梁使用条件的分析,提出了该类浇注料应具有的特点。
2.The slag resistance of magnesia - zircon castable was investigated by crucible test.
采用坩埚法研究了镁锆质浇注料的抗渣性。
3.When the adding amount of kyanite is 4-5%, the castable performance is better.
蓝晶石加入量为4- 5%时浇注料的性能较好。
4.Added the option to toggle self castable and curable spells.
增加一个选项是否显示可祛除魔法和诅咒等。
5.The emphasis of discussion lies in slag resistance of castable.
着重对浇注料的抗渣性进行了讨论。
6.All of them influence the slag resistances of spinel clinker and its castable refractory.
这些都与尖晶石熟料及铝—尖晶石浇注料的抗渣性有密切关系。
7.The artist prefers to work with castable resins for her sculptures.
这位艺术家喜欢使用可铸造树脂来制作她的雕塑。
8.Make sure your device is compatible with castable formats before streaming.
在流媒体播放之前,请确保您的设备与可投放格式兼容。
9.With this technology, your presentations can be made castable to any smart device.
借助这项技术,您的演示文稿可以被制作成可投放到任何智能设备上。
10.The new software update includes a feature that makes the video files more castable.
新的软件更新包含一个功能,使视频文件更可投放。
11.Our team developed a castable material that can be used in various industrial applications.
我们的团队开发了一种可以用于各种工业应用的可铸造材料。
作文
In the world of manufacturing and design, materials play a crucial role in determining the final outcome of any project. One term that often comes up in discussions about materials is castable. This adjective refers to the ability of a material to be formed into a specific shape by pouring it into a mold. Understanding the properties and applications of castable materials can significantly enhance the efficiency and creativity of various industries, including construction, art, and product design.For instance, when we think about construction, concrete is one of the most widely used castable materials. Its versatility allows it to be poured into molds of various shapes and sizes, making it an ideal choice for creating everything from simple slabs to intricate architectural features. The process of casting concrete involves mixing cement with water and aggregates, then pouring this mixture into a mold where it sets and hardens. This method not only saves time but also provides a high degree of precision in achieving the desired form.In the realm of art, sculptors often utilize castable materials like plaster or resin to create their masterpieces. These materials can be easily poured into molds, allowing artists to replicate detailed designs or create complex structures. The ability to use castable substances opens up a world of possibilities for artists, enabling them to experiment with different textures and finishes. Furthermore, the casting process can be repeated multiple times, allowing for mass production of artistic pieces without compromising on quality.Another significant application of castable materials is found in product design and manufacturing. Many consumer goods, such as kitchen utensils, toys, and automotive parts, are produced using castable plastics and metals. The casting process allows manufacturers to create intricate designs that would be difficult or impossible to achieve through other methods. For example, injection molding, a common casting technique, enables the production of high volumes of products with consistent quality and minimal waste.Moreover, the advancements in technology have led to the development of new castable materials that offer enhanced properties, such as increased durability and resistance to environmental factors. Innovations in 3D printing technology have also introduced a new dimension to the concept of castable materials. Designers can now create digital models that can be directly transformed into physical objects using castable resins. This not only streamlines the production process but also allows for greater customization and flexibility in design.In conclusion, the term castable represents a fundamental concept in various fields, highlighting the importance of materials that can be shaped and molded to meet specific needs. Whether in construction, art, or product manufacturing, understanding how to effectively use castable materials can lead to innovative solutions and remarkable creations. As technology continues to evolve, the potential applications of castable materials will undoubtedly expand, paving the way for new possibilities in design and production. By embracing the characteristics and advantages of castable substances, industries can drive progress and inspire creativity, ultimately enhancing the quality of both functional and artistic endeavors.
在制造和设计的世界中,材料在决定任何项目的最终结果方面起着至关重要的作用。一个经常出现在有关材料讨论中的术语是可铸造的。这个形容词指的是材料通过倒入模具形成特定形状的能力。理解可铸造的材料的属性和应用可以显著提高各个行业的效率和创造力,包括建筑、艺术和产品设计。例如,当我们想到建筑时,混凝土是最广泛使用的可铸造的材料之一。它的多功能性使其能够被倒入各种形状和大小的模具中,使其成为从简单板材到复杂建筑特征的理想选择。铸造混凝土的过程涉及将水泥与水和骨料混合,然后将这种混合物倒入模具中,在那里它会凝固和硬化。这种方法不仅节省时间,而且在实现所需形状方面提供了高度的精确度。在艺术领域,雕塑家经常利用可铸造的材料,如石膏或树脂,来创作他们的杰作。这些材料可以很容易地倒入模具中,使艺术家能够复制详细的设计或创建复杂的结构。使用可铸造的物质的能力为艺术家打开了一个可能性的大门,使他们能够尝试不同的纹理和表面。此外,铸造过程可以重复多次,从而允许在不妨碍质量的情况下大规模生产艺术作品。可铸造的材料的另一个重要应用可以在产品设计和制造中找到。许多消费品,如厨房用具、玩具和汽车零件,都是使用可铸造的塑料和金属生产的。铸造过程使制造商能够创建复杂的设计,这些设计通过其他方法难以或不可能实现。例如,注塑成型是一种常见的铸造技术,能够以一致的质量和最小的浪费生产大量产品。此外,技术的进步导致新可铸造的材料的发展,这些材料具有增强的特性,如更高的耐用性和对环境因素的抵抗。3D打印技术的创新也为可铸造的材料概念引入了新的维度。设计师现在可以创建数字模型,这些模型可以直接转化为物理对象,使用可铸造的树脂。这不仅简化了生产过程,还允许在设计上有更大的定制和灵活性。总之,术语可铸造的代表了各个领域的一个基本概念,突显了能够被塑造和模制以满足特定需求的材料的重要性。无论是在建筑、艺术还是产品制造中,理解如何有效使用可铸造的材料都可以带来创新的解决方案和卓越的创作。随着技术的不断发展,可铸造的材料的潜在应用无疑会扩展,为设计和生产开辟新的可能性。通过拥抱可铸造的物质的特性和优势,行业可以推动进步并激发创造力,最终提升功能和艺术工作质量。
