full-scale mock-up

简明释义

实尺模型

英英释义

例句

1.The automotive company used a full-scale mock-up to simulate crash tests for safety evaluation.

汽车公司使用全尺寸模型模拟碰撞测试以进行安全评估。

2.The architect presented a full-scale mock-up of the building to the investors.

建筑师向投资者展示了该建筑的全尺寸模型。

3.The engineering team created a full-scale mock-up to test the new aircraft design.

工程团队制作了一个全尺寸模型来测试新的飞机设计。

4.Using a full-scale mock-up allowed us to identify potential design flaws early in the process.

使用全尺寸模型使我们能够在过程中早期识别潜在的设计缺陷。

5.Before launching the product, we built a full-scale mock-up to gather user feedback.

在推出产品之前，我们建立了一个全尺寸模型以收集用户反馈。

作文

In the world of design and engineering, the term full-scale mock-up refers to a life-sized model that is created to test and evaluate various aspects of a product before its final production. This concept is crucial in industries such as architecture, automotive, aerospace, and consumer goods, where precision and functionality are paramount. A full-scale mock-up allows designers and engineers to visualize their ideas in three dimensions, providing a tangible representation of their concepts.One of the primary benefits of creating a full-scale mock-up is that it enables stakeholders to identify potential issues early in the design process. For instance, in architecture, a full-scale mock-up of a building facade can reveal problems with aesthetics, structural integrity, or material choices that might not be apparent in smaller models or digital simulations. By addressing these issues at the mock-up stage, teams can save time and resources, preventing costly changes during construction.In the automotive industry, manufacturers often create full-scale mock-ups of vehicles to assess ergonomics and user experience. These mock-ups allow engineers to evaluate the comfort of seating arrangements, the visibility from different angles, and the accessibility of controls. By physically interacting with a full-scale mock-up, designers can gather valuable feedback that informs the final design, ensuring that the end product meets consumer expectations.Similarly, in the aerospace sector, a full-scale mock-up of an aircraft cockpit can be instrumental in pilot training and safety evaluations. It provides a realistic environment for pilots to practice maneuvers and familiarize themselves with the cockpit layout before flying an actual aircraft. This hands-on experience is invaluable, as it enhances pilot preparedness and contributes to overall flight safety.Moreover, a full-scale mock-up serves as an effective communication tool among team members and stakeholders. It fosters collaboration by allowing everyone involved to visualize the project in a concrete way. This shared understanding can lead to more productive discussions and quicker decision-making, as all parties can see and interact with the design firsthand.While the advantages of a full-scale mock-up are clear, it is important to acknowledge the resources required to create one. Building a full-scale mock-up can be time-consuming and costly, particularly if it involves intricate details or advanced materials. Therefore, teams must weigh the benefits against the investment needed to produce a mock-up. In some cases, digital simulations or smaller-scale models may suffice, but when the stakes are high, a full-scale mock-up can provide the clarity and confidence needed to proceed with a project.In conclusion, the use of a full-scale mock-up is an essential practice in many design and engineering fields. It offers a practical approach to testing and refining ideas, ultimately leading to better products and improved user experiences. By investing in a full-scale mock-up, companies can mitigate risks, enhance collaboration, and ensure that their final products meet both functional requirements and aesthetic standards. As industries continue to evolve, the role of the full-scale mock-up will remain pivotal in shaping innovative solutions that resonate with consumers and stand the test of time.

在设计和工程的世界中，术语全尺寸模型指的是一种按实际大小制作的模型，用于在最终生产之前测试和评估产品的各个方面。这个概念在建筑、汽车、航空航天和消费品等行业中至关重要，因为精确性和功能性是最重要的。全尺寸模型使设计师和工程师能够以三维形式可视化他们的想法，提供一个概念的有形表现。创建全尺寸模型的主要好处之一是，它使利益相关者能够在设计过程中早期识别潜在问题。例如，在建筑中，建筑外立面的全尺寸模型可以揭示美学、结构完整性或材料选择方面的问题，这些问题在较小的模型或数字模拟中可能并不明显。通过在模型阶段解决这些问题，团队可以节省时间和资源，防止在施工期间进行昂贵的更改。在汽车行业，制造商通常会创建全尺寸模型来评估人体工程学和用户体验。这些模型使工程师能够评估座椅布局的舒适度、不同角度的可见性以及控制装置的可及性。通过与全尺寸模型进行物理互动，设计师可以收集有价值的反馈，指导最终设计，确保最终产品满足消费者的期望。同样，在航空航天领域，飞机驾驶舱的全尺寸模型在飞行员培训和安全评估中也非常重要。它为飞行员提供了一个现实的环境，让他们在飞行实际飞机之前练习操作和熟悉驾驶舱布局。这种实践经验是无价的，因为它增强了飞行员的准备程度，并有助于整体飞行安全。此外，全尺寸模型还作为团队成员和利益相关者之间有效的沟通工具。它通过让所有参与者以具体的方式可视化项目，促进了合作。这种共享的理解可以导致更富有成效的讨论和更快的决策，因为所有各方都可以亲自看到和互动设计。虽然全尺寸模型的优势显而易见，但必须承认创建它所需的资源。制作全尺寸模型可能耗时且成本高，特别是如果涉及复杂的细节或先进的材料。因此，团队必须权衡好处与制作模型所需的投资。在某些情况下，数字模拟或小型模型可能就足够了，但当风险较高时，全尺寸模型可以提供所需的清晰度和信心，以推进项目。总之，在许多设计和工程领域中，使用全尺寸模型是一种必不可少的实践。它提供了一种实用的方法来测试和完善想法，最终导致更好的产品和改善的用户体验。通过投资于全尺寸模型，公司可以降低风险、增强合作，确保其最终产品满足功能要求和美学标准。随着行业的不断发展，全尺寸模型的作用将在塑造与消费者共鸣并经得起时间考验的创新解决方案中保持关键地位。