core material

简明释义

堆芯材料

英英释义

Core material refers to the essential substance or component that forms the central part of a structure or system, providing strength and stability.

核心材料指的是构成结构或系统中心部分的基本物质或成分,提供强度和稳定性。

In manufacturing and engineering, core materials are often used to enhance the properties of composite materials, such as increasing rigidity while reducing weight.

在制造和工程中,核心材料常用于增强复合材料的特性,例如在减轻重量的同时增加刚度。

例句

1.The core material 核心材料 used in this product is eco-friendly and sustainable.

该产品使用的核心材料 core material是环保和可持续的。

2.The construction of the building required a strong core material 核心材料 to ensure stability.

建筑的施工需要一种强大的核心材料 core material以确保稳定性。

3.Engineers must select the right core material 核心材料 for optimal performance.

工程师必须选择合适的核心材料 core material以获得最佳性能。

4.In our research, we found that the core material 核心材料 significantly affects thermal conductivity.

在我们的研究中,我们发现核心材料 core material显著影响热导率。

5.The core material 核心材料 of this device enhances its durability and longevity.

该设备的核心材料 core material增强了其耐用性和使用寿命。

作文

In today's rapidly evolving world, the importance of education cannot be overstated. Education serves as the foundation for personal and professional development, equipping individuals with the skills and knowledge necessary to navigate life's challenges. At the heart of this educational journey lies what we refer to as the core material (核心材料). This term encompasses the essential content and concepts that form the basis of a particular subject or field of study. Understanding the significance of core material (核心材料) is crucial for both educators and students alike. The core material (核心材料) in any curriculum is designed to provide students with a comprehensive understanding of fundamental principles. For instance, in mathematics, the core material (核心材料) includes basic operations, algebra, geometry, and statistics. Mastering these foundational elements is vital, as they serve as building blocks for more advanced topics. Without a solid grasp of the core material (核心材料), students may struggle to excel in higher-level courses, leading to gaps in knowledge that can hinder their academic progress. Moreover, the core material (核心材料) is not only important for academic success but also for practical application in real-world scenarios. Take, for example, the field of science. The core material (核心材料) includes key concepts such as the scientific method, basic laws of physics, and fundamental biological processes. These concepts are not just theoretical; they have practical implications in everyday life, from understanding health-related issues to making informed decisions about technology and the environment. In addition to its role in academia, the core material (核心材料) also fosters critical thinking and problem-solving skills. When students engage with the core material (核心材料), they learn to analyze information, draw connections between different ideas, and apply their knowledge to new situations. This process of active learning encourages students to become independent thinkers, capable of tackling complex challenges in various aspects of their lives. Furthermore, the core material (核心材料) serves as a common ground for collaboration and discussion among students. In group projects or classroom discussions, students often refer back to the core material (核心材料) as a reference point. This shared understanding promotes teamwork and enhances communication skills, as students learn to articulate their thoughts and build on each other's ideas. It is also worth noting that the core material (核心材料) evolves over time. As new discoveries are made and societal needs change, educational institutions must adapt their curricula to include updated core material (核心材料). This dynamic nature of education ensures that students are equipped with relevant knowledge that prepares them for the future. In conclusion, the concept of core material (核心材料) is fundamental to the educational experience. It provides the essential knowledge and skills that students need to succeed academically and in their personal lives. By focusing on the core material (核心材料), educators can create a robust learning environment that fosters growth, critical thinking, and collaboration. As we continue to navigate an ever-changing world, understanding and mastering the core material (核心材料) will remain a priority for learners of all ages.

在当今快速发展的世界中,教育的重要性不容低估。教育作为个人和职业发展的基础,赋予个人应对生活挑战所需的技能和知识。在这一教育旅程的核心,是我们所称之为核心材料(核心材料)的东西。这个术语包含了构成特定学科或研究领域基础的基本内容和概念。理解核心材料(核心材料)的重要性对于教育工作者和学生来说都是至关重要的。 任何课程中的核心材料(核心材料)旨在为学生提供对基本原则的全面理解。例如,在数学中,核心材料(核心材料)包括基本运算、代数、几何和统计。掌握这些基础元素至关重要,因为它们是更高级主题的构建块。如果没有对核心材料(核心材料)的扎实掌握,学生可能会在更高层次的课程中挣扎,导致知识的空白,从而阻碍他们的学业进步。 此外,核心材料(核心材料)不仅对学业成功重要,而且对在现实世界中的实际应用也至关重要。以科学领域为例,核心材料(核心材料)包括科学方法、基本物理定律和基本生物过程等关键概念。这些概念不仅是理论上的,它们在日常生活中具有实际意义,从理解健康相关问题到对技术和环境做出明智的决策。 除了在学术上的作用外,核心材料(核心材料)还培养了批判性思维和解决问题的能力。当学生接触核心材料(核心材料)时,他们学习分析信息、建立不同思想之间的联系,并将所学知识应用于新情况。这种主动学习的过程鼓励学生成为独立思考者,能够在生活的各个方面应对复杂的挑战。 此外,核心材料(核心材料)还作为学生之间合作和讨论的共同基础。在小组项目或课堂讨论中,学生们通常会将注意力集中在核心材料(核心材料)上作为参考点。这种共同的理解促进了团队合作,并增强了沟通技能,因为学生们学习如何表达自己的想法并建立在彼此的观点之上。 还值得注意的是,核心材料(核心材料)随着时间的推移而不断演变。随着新发现的出现和社会需求的变化,教育机构必须调整其课程,以纳入更新的核心材料(核心材料)。这种教育的动态特性确保学生具备与时俱进的知识,为未来做好准备。 总之,核心材料(核心材料)的概念对教育体验至关重要。它提供了学生在学业和个人生活中取得成功所需的基本知识和技能。通过专注于核心材料(核心材料),教育工作者可以创造一个强大的学习环境,促进成长、批判性思维和合作。随着我们继续在不断变化的世界中前行,理解和掌握核心材料(核心材料)将始终是各年龄段学习者的优先事项。