thick plate

简明释义

厚板

英英释义

例句

1.For the pottery class, we learned how to create a thick plate that could hold more weight.

在陶艺课上，我们学习如何制作一个可以承重的厚盘子。

2.He carefully placed the hot pizza on a thick plate to prevent it from bending.

他小心翼翼地把热披萨放在一个厚盘子上，以防止它变形。

3.During the dinner party, each guest received a thick plate filled with delicious food.

在晚宴上，每位客人都收到了一个装满美味食物的厚盘子。

4.The chef used a thick plate to serve the steak, ensuring it remained warm.

厨师用一个厚盘子来上牛排，以确保它保持温暖。

5.The artist painted a beautiful design on the surface of the thick plate.

艺术家在厚盘子的表面上绘制了一个美丽的图案。

作文

In the realm of engineering and manufacturing, the term thick plate refers to a substantial piece of material, often metal, that has a significant thickness compared to standard sheets. These thick plates are commonly used in various applications, including construction, shipbuilding, and machinery fabrication. Understanding the properties and uses of thick plates is crucial for professionals in these fields, as they provide essential strength and durability to structures and components.One of the primary characteristics of a thick plate is its ability to withstand high stress and load. In construction, for example, thick plates are often utilized as structural elements in beams and columns, where they bear the weight of the building and ensure stability. The thickness of the plate allows it to absorb and distribute forces effectively, reducing the risk of deformation or failure under pressure.Moreover, thick plates are integral in the manufacturing of heavy machinery. Components such as frames, chassis, and bases often require the use of thick plates to provide the necessary rigidity and support. For instance, in the automotive industry, thick plates are used in the production of vehicle frames, where safety and strength are paramount. The durability of these plates ensures that vehicles can withstand the rigors of everyday use, contributing to overall safety for passengers.Another important aspect of thick plates is their versatility in terms of material composition. They can be made from various metals, including steel, aluminum, and titanium, each offering unique properties suited for specific applications. Steel thick plates, for example, are known for their strength and affordability, making them a popular choice in construction and manufacturing. On the other hand, titanium thick plates are favored in aerospace applications due to their lightweight nature and exceptional resistance to corrosion.In addition to their physical properties, the production of thick plates involves advanced techniques such as cutting, welding, and machining. These processes require skilled labor and precision equipment to ensure that the final product meets stringent specifications. The quality of a thick plate can significantly impact the performance of the final application, making attention to detail during manufacturing crucial.Furthermore, the environmental impact of using thick plates is becoming an increasingly important consideration in today's world. As industries strive for sustainability, many are exploring ways to reduce waste and improve the recyclability of materials. Innovations in the production of thick plates aim to minimize energy consumption and enhance the use of recycled materials, promoting a more sustainable approach to manufacturing.In conclusion, the term thick plate encompasses a vital component in various industrial applications, characterized by its strength, versatility, and essential role in structural integrity. Whether in construction, machinery, or aerospace, understanding the significance of thick plates is fundamental for engineers and manufacturers alike. As technology advances, the methods of producing and utilizing thick plates will continue to evolve, shaping the future of engineering and manufacturing practices.

在工程和制造领域，术语厚板指的是一块相对较厚的材料，通常是金属，与标准板材相比具有显著的厚度。这些厚板通常用于各种应用，包括建筑、造船和机械制造。理解厚板的特性和用途对于这些领域的专业人士至关重要，因为它们为结构和组件提供了必要的强度和耐久性。厚板的主要特点之一是其能够承受高压力和负荷。在建筑中，例如，厚板通常作为梁和柱中的结构元素使用，在那里它们承载着建筑的重量并确保稳定性。板材的厚度使其能够有效地吸收和分配力，减少在压力下变形或失效的风险。此外，厚板在重型机械制造中也至关重要。框架、底盘和基础等组件通常需要使用厚板来提供必要的刚性和支持。例如，在汽车工业中，厚板用于生产车辆框架，在那里安全性和强度至关重要。这些板材的耐用性确保车辆能够承受日常使用的严酷条件，从而提高乘客的整体安全性。厚板的另一个重要方面是其材料组成的多样性。它们可以由多种金属制成，包括钢、铝和钛，每种金属都提供适合特定应用的独特属性。例如，钢厚板因其强度和经济性而受到欢迎，成为建筑和制造中的流行选择。另一方面，钛厚板因其轻巧和出色的耐腐蚀性而在航空航天应用中受到青睐。除了物理特性外，厚板的生产涉及先进的切割、焊接和加工技术。这些过程需要熟练的劳动力和精密设备，以确保最终产品符合严格的规格。厚板的质量会显著影响最终应用的性能，因此在制造过程中对细节的关注至关重要。此外，在当今世界，使用厚板的环境影响正变得越来越重要。随着各行业努力实现可持续发展，许多企业正在探索减少废物和提高材料可回收性的方法。厚板生产中的创新旨在最小化能耗并增强回收材料的使用，促进更可持续的制造方法。总之，术语厚板涵盖了各种工业应用中的关键组成部分，其特点是强度、通用性和在结构完整性中的重要作用。无论是在建筑、机械还是航空航天领域，理解厚板的重要性对工程师和制造商来说都是根本性的。随着技术的进步，厚板的生产和利用方法将继续演变，塑造工程和制造实践的未来。