material specification

简明释义

原材料明细表

英英释义

例句

1.Before starting production, the team confirmed the material specification for the new product.

在开始生产之前，团队确认了新产品的材料规格。

2.The engineer reviewed the material specification to ensure it met the project requirements.

工程师审查了材料规格以确保其符合项目要求。

3.The material specification includes details about the tensile strength and corrosion resistance of the materials used.

该材料规格包括所用材料的抗拉强度和耐腐蚀性的详细信息。

4.The supplier provided a detailed material specification to ensure compliance with industry standards.

供应商提供了详细的材料规格以确保符合行业标准。

5.Any changes to the design must be reflected in the material specification to maintain quality standards.

对设计的任何更改都必须反映在材料规格中，以保持质量标准。

作文

In the world of engineering and manufacturing, the term material specification plays a crucial role in ensuring that products meet the required standards and perform effectively. A material specification refers to a detailed description of the materials that are to be used in a particular project or product. This includes information about the type of material, its properties, dimensions, and any relevant standards that must be adhered to. Understanding the material specification is essential for engineers, designers, and manufacturers alike, as it provides the foundation upon which a successful product is built.One of the primary purposes of a material specification is to ensure compatibility between different components of a product. For instance, if a manufacturer is producing a car, the material specification for the engine components will differ significantly from that of the body panels. The engine parts must withstand high temperatures and pressures, while the body panels need to be lightweight yet strong enough to provide safety. By clearly defining the material specification, manufacturers can avoid costly mistakes and ensure that all parts function harmoniously together.Moreover, a well-defined material specification aids in quality control. When materials are sourced from suppliers, having a clear specification allows for better assessment of whether the materials meet the necessary criteria. Quality assurance teams can use the material specification to conduct tests and inspections, ensuring that every batch of material conforms to the defined standards. This process not only enhances the reliability of the final product but also reduces the likelihood of defects that could lead to recalls or safety issues.In addition to compatibility and quality control, a material specification also addresses sustainability concerns. In today’s world, there is increasing pressure on manufacturers to consider the environmental impact of their materials. By incorporating sustainable practices into the material specification, companies can select materials that are recyclable, biodegradable, or sourced from renewable resources. This not only helps in reducing the carbon footprint of the product but also appeals to environmentally conscious consumers.Furthermore, the material specification serves as a communication tool among various stakeholders involved in a project. Architects, engineers, and contractors all rely on the material specification to understand the requirements of the materials being used. This ensures that everyone is on the same page and helps to streamline the production process. For example, if an architect specifies a certain type of glass for a building facade, the contractor must refer to the material specification to ensure that the correct product is ordered and installed.In conclusion, the importance of material specification in engineering and manufacturing cannot be overstated. It not only ensures compatibility and quality control but also addresses sustainability and facilitates communication among stakeholders. As industries continue to evolve and face new challenges, the role of material specification will remain vital in driving innovation and ensuring the successful delivery of products that meet both consumer expectations and regulatory standards. Therefore, investing time and resources into developing comprehensive material specifications is a fundamental practice that all manufacturers should prioritize.

在工程和制造的世界中，术语材料规范发挥着至关重要的作用，以确保产品满足所需标准并有效运行。材料规范指的是对特定项目或产品中将要使用的材料的详细描述。这包括有关材料类型、其特性、尺寸以及必须遵循的任何相关标准的信息。理解材料规范对于工程师、设计师和制造商来说都是至关重要的，因为它提供了成功产品建立的基础。材料规范的主要目的之一是确保产品不同组件之间的兼容性。例如，如果制造商正在生产汽车，发动机组件的材料规范与车身面板的材料规范将大相径庭。发动机部件必须承受高温和高压，而车身面板需要轻便，但又足够坚固以提供安全性。通过清楚地定义材料规范，制造商可以避免代价高昂的错误，确保所有部件和谐地一起工作。此外，良好定义的材料规范有助于质量控制。当从供应商那里采购材料时，拥有清晰的规范可以更好地评估材料是否符合必要的标准。质量保证团队可以利用材料规范进行测试和检查，确保每批材料都符合定义的标准。这个过程不仅提高了最终产品的可靠性，还减少了可能导致召回或安全问题的缺陷的可能性。除了兼容性和质量控制外，材料规范还解决了可持续性问题。在当今世界，制造商面临着越来越大的压力，要求考虑其材料的环境影响。通过将可持续实践纳入材料规范，公司可以选择可回收、可生物降解或来自可再生资源的材料。这不仅有助于减少产品的碳足迹，还吸引了关注环境的消费者。此外，材料规范还充当项目中各利益相关者之间的沟通工具。建筑师、工程师和承包商都依赖于材料规范来理解所用材料的要求。这确保了每个人都在同一页面上，并有助于简化生产过程。例如，如果建筑师为建筑外立面指定了一种特定类型的玻璃，承包商必须参考材料规范以确保订购和安装正确的产品。总之，材料规范在工程和制造中的重要性不容小觑。它不仅确保了兼容性和质量控制，还解决了可持续性问题，并促进了利益相关者之间的沟通。随着行业的不断发展和面临新挑战，材料规范的角色在推动创新和确保成功交付满足消费者期望和监管标准的产品方面将始终至关重要。因此，投入时间和资源来制定全面的材料规范是一项所有制造商都应优先考虑的基本实践。