core mechanical mockup

简明释义

堆芯机械全尺寸模型

英英释义

例句

1.The engineers presented the core mechanical mockup to showcase the functionality of the new design.

工程师们展示了核心机械模型以展示新设计的功能。

2.Before starting production, we need to test the core mechanical mockup for any potential issues.

在开始生产之前，我们需要测试核心机械模型以发现潜在问题。

3.Feedback from the team was crucial in refining the core mechanical mockup.

团队的反馈对完善核心机械模型至关重要。

4.We used a 3D printer to create a detailed core mechanical mockup for our project.

我们使用3D打印机为我们的项目制作了一个详细的核心机械模型。

5.The core mechanical mockup allows us to visualize how the components will fit together.

这个核心机械模型让我们能够直观地看到各个组件如何组合在一起。

作文

In the realm of engineering and design, the term core mechanical mockup refers to a fundamental prototype that showcases the essential mechanical components of a system. This prototype is crucial during the development phase, as it allows engineers and designers to visualize how the various parts will work together. By creating a core mechanical mockup, teams can identify potential issues early in the design process, which can save both time and resources in the long run.One of the primary advantages of using a core mechanical mockup is that it provides a tangible representation of the design concept. Unlike digital models, a physical mockup allows for hands-on testing and evaluation. Engineers can manipulate the components, assess their interactions, and make necessary adjustments based on real-world feedback. This iterative process is vital for refining designs and ensuring that the final product meets performance standards.Moreover, a core mechanical mockup serves as an excellent communication tool among team members and stakeholders. It helps bridge the gap between technical jargon and practical understanding, enabling non-engineers to grasp the complexities of the project. When presenting a core mechanical mockup to clients or investors, teams can effectively convey their vision and secure buy-in for further development.The creation of a core mechanical mockup typically involves several steps. Initially, engineers will gather requirements and specifications for the project. Using these parameters, they will draft initial designs, often utilizing computer-aided design (CAD) software to create detailed models. Once a satisfactory digital model is achieved, the next step is to fabricate the physical mockup. This may involve 3D printing, machining, or assembling existing components, depending on the complexity of the design.After the core mechanical mockup is constructed, it undergoes a series of tests. These tests are designed to evaluate the functionality of the mechanical systems and ensure that they operate as intended. Any issues that arise during testing can be addressed promptly, leading to modifications in the design before moving forward with production.In conclusion, the concept of a core mechanical mockup plays a pivotal role in the engineering design process. It not only aids in the visualization and testing of mechanical systems but also enhances communication among team members and stakeholders. By investing time and resources into developing a robust core mechanical mockup, engineering teams can significantly improve the quality and efficiency of their projects, ultimately leading to successful outcomes. As technology continues to advance, the methods used to create and test these mockups will also evolve, allowing for even greater innovation in the field of engineering.

在工程和设计领域，术语核心机械模型指的是展示系统基本机械组件的基本原型。这个原型在开发阶段至关重要，因为它允许工程师和设计师可视化各个部分如何协同工作。通过创建核心机械模型，团队可以在设计过程的早期识别潜在问题，从而节省时间和资源。使用核心机械模型的主要优点之一是，它提供了设计概念的有形表现。与数字模型不同，物理模型允许进行实际测试和评估。工程师可以操纵组件，评估它们的相互作用，并根据现实反馈进行必要的调整。这种迭代过程对于完善设计至关重要，确保最终产品符合性能标准。此外，核心机械模型作为团队成员和利益相关者之间的优秀沟通工具。它有助于弥合技术术语与实际理解之间的差距，使非工程师能够掌握项目的复杂性。当向客户或投资者展示核心机械模型时，团队可以有效传达他们的愿景并获得进一步开发的支持。创建核心机械模型通常涉及几个步骤。最初，工程师将收集项目的要求和规范。利用这些参数，他们将起草初步设计，通常使用计算机辅助设计（CAD）软件创建详细模型。一旦达到令人满意的数字模型，下一步就是制造物理模型。这可能涉及3D打印、机械加工或组装现有组件，具体取决于设计的复杂性。在构建核心机械模型后，它会经过一系列测试。这些测试旨在评估机械系统的功能，确保它们按预期运行。在测试过程中出现的任何问题都可以及时解决，从而在进入生产之前对设计进行修改。总之，核心机械模型的概念在工程设计过程中发挥着关键作用。它不仅有助于机械系统的可视化和测试，还增强了团队成员与利益相关者之间的沟通。通过在开发强大的核心机械模型上投入时间和资源，工程团队可以显著提高项目的质量和效率，最终实现成功的结果。随着技术的不断进步，用于创建和测试这些模型的方法也将不断发展，从而在工程领域实现更大的创新。