least moulded depth

简明释义

最小型深

英英释义

例句

1.The design requires a minimum of 10 cm for the least moulded depth 最小成型深度 to ensure structural integrity.

该设计要求至少10厘米的least moulded depth 最小成型深度以确保结构完整性。

2.In our product specifications, the least moulded depth 最小成型深度 should not be less than 5 mm.

在我们的产品规格中，least moulded depth 最小成型深度不得小于5毫米。

3.The engineer mentioned that the least moulded depth 最小成型深度 is critical for the part's functionality.

工程师提到least moulded depth 最小成型深度对部件功能至关重要。

4.Adjusting the mold design can help achieve the required least moulded depth 最小成型深度 more efficiently.

调整模具设计可以更有效地达到所需的least moulded depth 最小成型深度。

5.Before starting production, we need to confirm the least moulded depth 最小成型深度 to avoid defects.

在开始生产之前，我们需要确认least moulded depth 最小成型深度以避免缺陷。

作文

In the realm of engineering and design, particularly in the fields of manufacturing and construction, precision is paramount. One term that often arises in discussions about materials and their applications is least moulded depth. This phrase refers to the minimum depth at which a material can be effectively shaped or formed without compromising its structural integrity. Understanding this concept is essential for engineers and designers alike, as it influences the choice of materials and the methods used in production. The least moulded depth is crucial when working with materials such as plastics, metals, and composites, where the molding process can significantly affect the final product's performance. For instance, if a plastic part is molded too shallowly, it may not possess the necessary strength or durability required for its intended use. Conversely, if the depth exceeds the least moulded depth, it may lead to unnecessary waste of material and increased production costs. Therefore, finding the right balance is vital.Moreover, the least moulded depth is not only a technical specification; it also has practical implications in various industries. In the automotive sector, for example, manufacturers must adhere to strict guidelines regarding the molding of components. Parts that do not meet the least moulded depth criteria could fail during operation, potentially leading to safety hazards. Similarly, in the aerospace industry, where precision is critical, ensuring that components are molded to the correct depth can be the difference between success and failure in mission-critical applications.In addition to safety concerns, the least moulded depth also plays a significant role in the aesthetic aspects of design. Designers must consider how the depth of molded features will affect the overall appearance of a product. Shallow depths might result in a less appealing finish, while achieving the optimal depth can enhance the visual appeal of a product. Thus, understanding the least moulded depth allows designers to create products that are not only functional but also visually attractive.Furthermore, advancements in technology have allowed for more precise control over the molding process, enabling manufacturers to achieve the desired least moulded depth with greater accuracy. Techniques such as computer-aided design (CAD) and computer numerical control (CNC) machining have revolutionized the way products are designed and produced. These technologies allow for meticulous adjustments to be made, ensuring that the least moulded depth is consistently met across large production runs.In conclusion, the term least moulded depth encompasses a critical aspect of material science and engineering that affects both the functionality and aesthetics of products. By understanding and applying this concept, engineers and designers can enhance the quality of their work, ensuring that products not only meet safety standards but also fulfill consumer expectations. As industries continue to evolve and innovate, the importance of mastering terms like least moulded depth will only grow, underscoring the need for ongoing education and adaptation in the face of new challenges and opportunities in engineering and design.

在工程和设计领域，尤其是在制造和建筑行业，精确性至关重要。一个常常在讨论材料及其应用时出现的术语是最小成型深度。这个短语指的是材料可以有效塑造或成型而不损害其结构完整性的最小深度。理解这一概念对于工程师和设计师来说至关重要，因为它影响着材料的选择以及生产中使用的方法。当处理塑料、金属和复合材料等材料时，最小成型深度尤为重要，因为成型过程会显著影响最终产品的性能。例如，如果塑料部件的成型深度过浅，它可能无法具备所需的强度或耐用性。而如果深度超过最小成型深度，则可能导致材料的浪费和生产成本的增加。因此，找到正确的平衡至关重要。此外，最小成型深度不仅仅是一个技术规范；它在各个行业中也具有实际意义。在汽车行业，例如，制造商必须遵循严格的成型组件指南。未能满足最小成型深度标准的部件可能在操作过程中失效，从而导致安全隐患。同样，在航空航天行业，精确性至关重要，确保组件按正确深度成型可能是关键任务成功与失败之间的区别。除了安全问题，最小成型深度在设计的美学方面也发挥着重要作用。设计师必须考虑成型特征的深度如何影响产品的整体外观。浅深度可能导致较差的外观效果，而达到最佳深度则可以增强产品的视觉吸引力。因此，理解最小成型深度使设计师能够创造出既功能性强又视觉上吸引人的产品。此外，技术的进步使得对成型过程的更精确控制成为可能，使制造商能够更准确地实现所需的最小成型深度。计算机辅助设计（CAD）和计算机数控（CNC）加工等技术彻底改变了产品的设计和生产方式。这些技术允许进行细致的调整，确保在大规模生产中始终达到最小成型深度。总之，术语最小成型深度涵盖了材料科学和工程的重要方面，影响着产品的功能性和美学。通过理解和应用这一概念，工程师和设计师可以提升他们工作的质量，确保产品不仅符合安全标准，还能满足消费者的期望。随着各行业不断发展和创新，掌握如最小成型深度这样的术语的重要性只会增加，这突显了在面对新的挑战和机遇时，持续教育和适应的必要性。