castability

简明释义

英[/ˌkæstəˈbɪlɪti/]美[/ˌkæstəˈbɪlɪti/]

铸造性能；[机] 可铸性

英英释义

单词用法

同义词

反义词

例句

1.Objective: To study the physical castability of a new type nickel based ceramic alloy without beryllium by comparing with CW pa alloy and VB alloy, for the purpose of future clinical application.

目的：考察新型不含铍的镍铬铝钛烤瓷合金可铸造性能，为新型烤瓷合金的研制和临床应用提供实验依据。

2.No. 3 Having excellent balance of desirable physical, mechanical properties and superb castability. Almost suitable for any die-casting component.

物理及机械性能上有极佳的平衡，亦拥有优良的铸造性，适合于大部份压铸件。

3.The effect of ferro-silico-barium and its rare earth complex alloy on mechanical properties, castability and metallographic structure of cast iron containing Pb, As and Sn have been studied.

研究了含钡硅铁及其稀土复合合金对含铅、砷、锡铸铁机械性能、铸造性能和金相组织的影响。

4.Objective: To study the physical castability of a new type nickel based ceramic alloy without beryllium by comparing with CW pa alloy and VB alloy, for the purpose of future clinical application.

目的：考察新型不含铍的镍铬铝钛烤瓷合金可铸造性能，为新型烤瓷合金的研制和临床应用提供实验依据。

5.ZA27 alloy is of high strength, excellent castability and of low energy consumed and pollution free. ZA27 alloy isa excellent engineering alloy.

ZA27合金强度高、铸造性能优越熔化时能耗低、基本上无污染，是一种很有前途的工程合金。

6.This paper analyzes the influence of calcium treatment on the castability of continuous casting molten steel.

分析讨论了钙处理对连铸钢浇注性能的影响。

7.Grey cast iron with high carbon equivalent has excellent castability, but? It's? Difficult to get high strength.

高碳当量灰铸铁具有良好的铸造性能，但提高强度是一个重要研究课题。

8.This paper introduces the availability of four wheat-straw processed by different method, put emphasis upon density, compression strength and castability of Flowing Straw-Cement composition.

本文介绍了经不同方法加工处理后四种麦秸秆的可用性能，着重研究了流动性秸秆水泥复合材料的密度、强度以及可浇注性。

9.High castability often results in fewer defects during the manufacturing process.

高铸造性通常会导致制造过程中缺陷更少。

10.The designer considered the castability of the material when creating the new product prototype.

设计师在创建新产品原型时考虑了材料的铸造性。

11.The engineer evaluated the metal's castability to determine if it could be molded into the desired shape.

工程师评估了金属的铸造性以确定它是否可以被模制成所需的形状。

12.Improving the castability of the alloy can lead to better production efficiency.

提高合金的铸造性可以提高生产效率。

13.Different metals have varying castability, affecting their suitability for specific applications.

不同的金属具有不同的铸造性，影响它们在特定应用中的适用性。

作文

In the field of manufacturing, particularly in metalworking and foundry processes, the term castability refers to the ease with which a material can be cast into a desired shape. This characteristic is crucial for engineers and designers as it directly impacts the efficiency of production and the quality of the final product. Understanding castability allows manufacturers to select the appropriate materials and techniques that will yield the best results. When we talk about castability, we are often considering several factors including the material's fluidity, its ability to fill intricate molds, and how well it can solidify without defects. For instance, metals like aluminum and zinc are known for their excellent castability, making them popular choices for various applications. On the other hand, materials with poor castability may lead to issues such as incomplete filling of molds, excessive porosity, or even cracking during the cooling process. One of the key aspects of improving castability is understanding the properties of the material being used. For example, the alloy composition can significantly influence castability. Adding certain elements can enhance fluidity or reduce shrinkage, thereby improving the overall casting process. Moreover, the temperature at which the material is poured into the mold also plays a vital role. Higher pouring temperatures can improve castability by allowing the material to flow more easily, but they can also introduce risks such as increased oxidation or changes in the material’s microstructure. Another important consideration is the design of the mold itself. A well-designed mold can greatly enhance the castability of the material. Features such as draft angles, gating systems, and venting can facilitate better flow and reduce the likelihood of defects. Engineers must carefully analyze the mold design to ensure that it complements the castability of the chosen material. In recent years, advancements in technology have also contributed to improved castability. Techniques such as 3D printing have revolutionized mold-making, allowing for more complex geometries that were previously impossible. This innovation not only enhances castability but also reduces waste and shortens production times. In conclusion, castability is a fundamental concept in the manufacturing industry that affects the efficiency and quality of production processes. By understanding the factors that influence castability, engineers and designers can make informed decisions that lead to better products and more efficient manufacturing practices. The continuous exploration of materials and technologies will undoubtedly further enhance castability and push the boundaries of what is possible in metalworking and foundry processes.

在制造领域，特别是在金属加工和铸造过程中，术语castability指的是材料被铸造成所需形状的难易程度。这一特性对工程师和设计师至关重要，因为它直接影响生产效率和最终产品的质量。理解castability使制造商能够选择适当的材料和技术，从而获得最佳效果。当我们谈论castability时，通常会考虑多个因素，包括材料的流动性、填充复杂模具的能力，以及在没有缺陷的情况下固化的效果。例如，铝和锌等金属因其优良的castability而成为各种应用的热门选择。另一方面，具有较差castability的材料可能会导致模具未完全填充、孔隙率过高，甚至在冷却过程中开裂等问题。提高castability的关键方面之一是了解所用材料的特性。例如，合金成分会显著影响castability。添加某些元素可以增强流动性或减少收缩，从而改善整体铸造过程。此外，材料倒入模具的温度也起着至关重要的作用。较高的浇注温度可以通过使材料更容易流动来改善castability，但也可能引入氧化增加或材料微观结构变化等风险。另一个重要的考虑因素是模具本身的设计。良好的模具设计可以大大增强材料的castability。例如，拔模角、浇注系统和通风设计等特征可以促进更好的流动，减少缺陷的可能性。工程师必须仔细分析模具设计，以确保其与所选材料的castability相辅相成。近年来，技术的进步也为改善castability做出了贡献。3D打印等技术彻底改变了模具制造，允许制作以前不可能实现的复杂几何形状。这一创新不仅增强了castability，还减少了浪费并缩短了生产时间。总之，castability是制造行业中的一个基本概念，影响着生产过程的效率和质量。通过理解影响castability的因素，工程师和设计师可以做出明智的决策，从而生产出更好的产品和更高效的制造实践。对材料和技术的持续探索无疑将进一步增强castability，推动金属加工和铸造过程的可能性。