electroforming

简明释义

英[ɪˈlɛktrəˌfɔrmɪŋ]美[ɪˈlɛktrəˌfɔrmɪŋ]

v. 电铸；电冶；用电解沉积法使成型（electroform 的现在分词形式）

英英释义

单词用法

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反义词

例句

1.Then, a micro exhaust duct was etched on an electroforming deposit through mask etching technology.

然后利用掩膜腐蚀方法在铸层上腐蚀出微排气通道。

2.Copper electroforming and nickel electroforming processes were compared with copper electroplating and nickel electroforming process respectively.

对电铸铜与电镀铜工艺、电铸镍与电镀镍工艺进行了比较。

3.As an accurate manufacture technology, electroforming is successfully applied in many high tech fields.

电铸作为一种精密制造技术，在许多高技术领域得到成功的应用。

4.Comparing and analyzing the effects of current density and additives on surface morphology of the electroforming deposit.

对比分析了电流密度和添加剂对电铸层表面形貌的影响。

5.After proper filtration and precipitation, the loose black layer had little effect on the electroforming process of the Ni-Mn alloy.

采取正确的过滤和沉淀措施后阳极黑色附着层对镍锰合金电铸过程不会产生明显的影响。

6.We analysed the main reasons causing the shortcomings of electroforming and proposed the selective jet electroforming technology to solve the problems.

本文分析了导致电铸缺陷的主要原因和解决方法，提出了选择性射流电铸工艺方案。

7.The manufacturing process of foaming mould of an oil pump body by using LOM prototype, electroforming and wire-arc spraying was introduced in detail.

以制造泵体发泡模具为例，详细介绍了在LOM原型的基础上，通过LOM原型的预处理、电铸和电弧喷涂等工艺手段快速制造发泡模具的过程。

8.The mechanism of pulse electroforming is described.

阐述了脉冲电铸的机理。

9.The jewelry industry often uses electroforming to create intricate designs with a lightweight structure.

珠宝行业常常使用电铸来创建具有复杂设计且重量轻的结构。

10.By employing electroforming, manufacturers can produce high-precision metal parts for aerospace applications.

通过采用电铸，制造商可以为航空航天应用生产高精度金属零件。

11.The process of electroforming allows artists to replicate their sculptures in metal.

电铸工艺使艺术家能够将他们的雕塑复制成金属作品。

12.In electronics, electroforming is used to create fine features on circuit boards.

在电子学中，电铸用于在电路板上创建精细特征。

13.The electroforming technique is crucial for making molds that require high durability.

对于需要高耐用性的模具来说，电铸技术至关重要。

作文

Electroforming is a fascinating process that has revolutionized the way we create metal objects. This technique involves the deposition of metal ions onto a conductive surface through an electrochemical reaction. The result is a highly detailed and precise metal replica of the original model. One of the most significant advantages of electroforming (电沉积) is its ability to produce complex shapes and intricate designs that would be challenging to achieve using traditional manufacturing methods. The process begins with the creation of a mold, usually made from a non-conductive material such as plastic or wax. The mold is then coated with a thin layer of conductive material, often copper, to allow for the electroforming process to take place. Once the mold is prepared, it is submerged in an electrolyte solution containing metal ions, typically nickel or copper. When an electric current is applied, metal ions are attracted to the conductive surface of the mold, gradually building up layers of metal until the desired thickness is achieved. One of the key benefits of electroforming (电沉积) is the level of detail it can capture. Because the process relies on the deposition of metal ions, it can replicate even the finest features of the original model. This makes it an ideal choice for artists and designers who want to create intricate jewelry, sculptures, and other decorative items. In addition, electroforming (电沉积) allows for the production of lightweight yet durable metal objects, which can be particularly advantageous in industries such as aerospace and automotive. Another important aspect of electroforming (电沉积) is its versatility. The process can be used to create both small-scale items, like jewelry, and large components, such as parts for industrial machinery. This adaptability makes electroforming (电沉积) a valuable technique in various fields, including electronics, where it is used to manufacture components like connectors and circuit boards. Despite its many advantages, electroforming (电沉积) is not without its challenges. The process requires precise control over several variables, including temperature, current density, and electrolyte composition. Any fluctuations can lead to defects in the final product, such as uneven thickness or poor adhesion. Therefore, mastering the electroforming (电沉积) process requires a deep understanding of both chemistry and electrical engineering. In conclusion, electroforming (电沉积) is a remarkable technique that offers unparalleled precision and versatility in metal fabrication. Its ability to create intricate designs and lightweight structures makes it an essential tool for artists, engineers, and manufacturers alike. As technology continues to advance, it is likely that electroforming (电沉积) will play an increasingly important role in the development of innovative products and solutions across various industries. The future of this process looks bright, and its applications are limited only by our imagination.

电沉积是一种迷人的工艺，它彻底改变了我们制造金属物体的方式。这种技术涉及通过电化学反应将金属离子沉积到导电表面上。其结果是原始模型的高度详细和精确的金属复制品。电沉积（electroforming）的一个显著优势是能够生产复杂的形状和精细的设计，这在传统制造方法中是很难实现的。 该过程始于模具的创建，通常由非导电材料如塑料或蜡制成。然后，模具涂上一层薄薄的导电材料，通常是铜，以便进行电沉积过程。一旦模具准备好，它就会沉浸在含有金属离子的电解液中，通常是镍或铜。当施加电流时，金属离子被吸引到模具的导电表面上，逐渐建立金属层，直到达到所需的厚度。 电沉积（electroforming）的一个关键好处是它可以捕捉的细节水平。由于该过程依赖于金属离子的沉积，它可以复制原始模型的最细微特征。这使得它成为艺术家和设计师创作精致珠宝、雕塑和其他装饰物品的理想选择。此外，电沉积（electroforming）还允许生产轻巧而耐用的金属物体，这在航空航天和汽车等行业中特别有利。 电沉积（electroforming）的另一个重要方面是其多样性。该过程可用于创建小型物品，如珠宝，也可用于大型组件，如工业机械的零部件。这种适应性使得电沉积（electroforming）在多个领域中成为一种有价值的技术，包括电子学，在该领域中，它用于制造连接器和电路板等组件。 尽管有许多优点，电沉积（electroforming）并非没有挑战。该过程需要对多个变量进行精确控制，包括温度、电流密度和电解质成分。任何波动都可能导致最终产品的缺陷，例如厚度不均或附着力差。因此，掌握电沉积（electroforming）过程需要对化学和电气工程有深刻的理解。 总之，电沉积（electroforming）是一种卓越的技术，提供了无与伦比的精确性和金属加工的多样性。它创造复杂设计和轻量结构的能力使其成为艺术家、工程师和制造商的重要工具。随着技术的不断进步，电沉积（electroforming）在各种行业的创新产品和解决方案开发中可能会发挥越来越重要的作用。这个过程的未来看起来光明，其应用仅限于我们的想象力。