manufacturable
简明释义
英[/ˌmænəˈfækʧərəbəl/]美[/ˌmænəˈfækʧərəbəl/]
adj. 可制造的
英英释义
Capable of being manufactured or produced in a systematic and efficient manner. | 能够以系统化和高效的方式进行制造或生产。 |
单词用法
同义词
| 可制造的 | 这个设计可以使用标准材料制造。 | ||
| 可生产的 | 我们需要确保产品能高效生产。 | ||
| 可构建的 | The new building is highly constructible with the given resources. | 新建筑在现有资源下非常可构建。 | |
| 可加工的 | 这种材料可以很容易地加工以满足我们的需求。 |
反义词
| 不可制造的 | The design was deemed unmanufacturable due to its complexity. | 由于设计的复杂性,该设计被认为是不可制造的。 | |
| 不切实际的 | 有些想法对于大规模生产来说根本不切实际。 |
例句
1.It has been demonstrated that compared to simulator-based method, manufacturable deep sub-micron CMOS analog circuits can be synthesized using this system in a short run time.
大量的实验结果表明:与基于模拟器的方法相比,采用该系统可以快速综合出可制造的深亚微米cmos模拟单元电路。
2.It has been demonstrated that compared to simulator-based method, manufacturable deep sub-micron CMOS analog circuits can be synthesized using this system in a short run time.
大量的实验结果表明:与基于模拟器的方法相比,采用该系统可以快速综合出可制造的深亚微米cmos模拟单元电路。
3.The model had to capture Master Chief's unique look, but was also required to be manufacturable at a low cost, which required great artistry from Alavi.
该模型曾捕捉到士官长的独特的外观,而且还要求是在制造的低成本,这需要极大的艺术性从阿拉维。
4.Certainly, photonic components are not as inexpensive, or as readily manufacturable, as electronic components are.
当然,光电子的元件不会像电子元件那么便宜,或者不会那么容易制造。
5.Work to provide a design that not only meets the customers criteria, but is also of high quality, cost effective, and manufacturable.
提供的设计不仅要满足客户的标准,而且还要是高质量的,低成本和可生产的。
6.A tubular thermoelectric conversion module manufacturable at low cost by a reduction in time and labor required for assembly.
本发明提供了通过减少组装所需的时间和工作量等而能够降低成本的热电转换模块。
7.In addition, providing the tools for manufacturable GRIN optics will expand the reach of GRIN lens design and fabrication methods beyond current optics application space.
此外,M -GRIN将使GRIN透镜的设计制造超越现有的光学应用范围。
8.Execute test methods to ensure that prototypes are manufacturable.
执行测试方法来确保样品是可制造的。
9.You can't have a design that you find out six months later isn't manufacturable.
你不能在六个月之后才发现一个设计不适于生产。
10.To reduce costs, we need to focus on creating more manufacturable 可制造的 products.
为了降低成本,我们需要专注于创造更多可制造的产品。
11.Our goal is to develop a manufacturable 可制造的 version of this concept by next year.
我们的目标是在明年之前开发出一个可制造的版本。
12.The new material used in the product is both durable and manufacturable 可制造的 in high volumes.
产品中使用的新材料既耐用又可以大规模制造。
13.The engineers evaluated each prototype to determine if it was manufacturable 可制造的 at scale.
工程师评估每个原型,以确定它是否可以大规模制造。
14.The design team ensured that all components were manufacturable 可制造的 using the latest technology.
设计团队确保所有组件都可以使用最新技术进行制造。
作文
In today's rapidly evolving industrial landscape, the concept of being manufacturable is more critical than ever. The term manufacturable refers to the ability of a product or component to be produced efficiently and cost-effectively in a manufacturing environment. This involves not only the design of the product but also the materials used, the processes implemented, and the technology available. As companies strive to remain competitive, understanding what makes a product manufacturable becomes essential for success.One of the primary considerations when designing a manufacturable product is the choice of materials. A product made from materials that are readily available and easy to work with will typically have lower production costs. For instance, using common metals like aluminum or steel can significantly reduce expenses compared to using rare or specialized materials. Additionally, the physical properties of these materials must align with the intended use of the product. For example, a lightweight material may be ideal for aerospace applications, while a durable material may be necessary for construction tools. Thus, the selection of appropriate materials is a fundamental aspect of ensuring that a product is manufacturable.Moreover, the design itself plays a pivotal role in determining whether a product is manufacturable. Designers must consider factors such as ease of assembly, the number of parts, and the complexity of the manufacturing processes involved. A simpler design with fewer components is often more manufacturable, as it reduces the time and labor required during production. Techniques like Design for Manufacturing (DFM) encourage engineers to create products that are easier and cheaper to produce. This approach not only streamlines the manufacturing process but also enhances the overall quality of the final product.Another significant factor influencing manufacturability is the technology employed in production. Advances in automation and robotics have revolutionized manufacturing, allowing for higher precision and efficiency. Products designed with these technologies in mind tend to be more manufacturable. For example, components that can be easily machined or assembled by robotic systems are likely to have a shorter production cycle and lower labor costs. Therefore, integrating modern technology into the design and production processes is crucial for enhancing a product's manufacturable qualities.Additionally, it is important to consider the supply chain when evaluating a product’s manufacturable characteristics. A robust supply chain ensures that all necessary materials and components are available when needed, reducing delays and potential disruptions in production. Companies that prioritize a well-managed supply chain can significantly improve their ability to produce manufacturable products consistently.In conclusion, the concept of manufacturable encompasses various factors that contribute to the successful production of goods. From material selection and design simplicity to technological integration and supply chain management, each element plays a vital role in determining how efficiently and effectively a product can be manufactured. As industries continue to innovate and evolve, the importance of creating manufacturable products will only increase, making it imperative for businesses to understand and implement strategies that enhance manufacturability. By focusing on these aspects, companies can not only improve their production processes but also ensure they meet the demands of an ever-changing market.
在当今快速发展的工业环境中,可制造性的概念比以往任何时候都更加重要。可制造性一词指的是产品或组件能够在制造环境中高效且经济地生产。这不仅涉及产品的设计,还包括所用材料、实施的工艺和可用的技术。随着公司努力保持竞争力,理解什么使产品具有可制造性对于成功至关重要。设计可制造性产品时,选择材料是主要考虑因素之一。由易于获取和加工的材料制成的产品通常会有较低的生产成本。例如,使用铝或钢等常见金属相比使用稀有或专业材料可以显著降低费用。此外,这些材料的物理特性必须与产品的预期用途相一致。例如,轻质材料可能非常适合航空航天应用,而耐用材料可能对建筑工具是必要的。因此,选择适当的材料是确保产品可制造性的基本方面。此外,设计本身在确定产品是否可制造性方面发挥着关键作用。设计师必须考虑组装的简便性、零件数量以及制造过程中涉及的复杂性。简单的设计和较少的组件通常更具可制造性,因为它减少了生产所需的时间和劳动。例如,面向制造设计(DFM)鼓励工程师创建更易于生产和成本更低的产品。这种方法不仅简化了制造过程,还提高了最终产品的整体质量。影响可制造性的另一个重要因素是生产中采用的技术。自动化和机器人技术的进步彻底改变了制造业,使得生产更加精确和高效。考虑到这些技术而设计的产品往往更具可制造性。例如,可以被机器人系统轻松加工或组装的组件通常具有更短的生产周期和较低的人工成本。因此,将现代技术整合到设计和生产过程中对于增强产品的可制造性特性至关重要。此外,在评估产品的可制造性特征时,考虑供应链也很重要。强大的供应链确保所有必要的材料和组件在需要时可用,从而减少生产中的延误和潜在干扰。优先考虑良好管理的供应链的公司可以显著提高其始终如一地生产可制造性产品的能力。总之,可制造性的概念涵盖了多种因素,这些因素共同促进了商品的成功生产。从材料选择和设计简化到技术整合和供应链管理,每个元素在确定产品如何高效和有效地制造方面都发挥着至关重要的作用。随着各行业的不断创新和发展,创造可制造性产品的重要性只会增加,这使得企业必须理解并实施增强可制造性的策略。通过关注这些方面,公司不仅可以改善其生产过程,还可以确保满足不断变化市场的需求。
