comprehensive balance of materials

简明释义

物资的综合平衡

英英释义

例句

1.In our project, achieving a comprehensive balance of materials will help reduce waste and lower costs.

在我们的项目中，实现全面的材料平衡将有助于减少浪费并降低成本。

2.The architect emphasized the need for a comprehensive balance of materials in the new building design to ensure sustainability.

建筑师强调在新建筑设计中需要实现全面的材料平衡以确保可持续性。

3.To create a successful marketing strategy, we need a comprehensive balance of materials that includes both digital and traditional media.

为了制定成功的营销策略，我们需要一个包括数字和传统媒体的全面的材料平衡。

4.The chef focused on a comprehensive balance of materials when creating the menu, ensuring that flavors complemented each other.

厨师在制定菜单时注重全面的材料平衡，确保口味相辅相成。

5.The engineer proposed a comprehensive balance of materials to enhance the durability of the product while keeping production costs low.

工程师提出了一种全面的材料平衡，以提高产品的耐用性，同时保持生产成本低。

作文

In today's rapidly evolving world, the concept of a comprehensive balance of materials has become increasingly significant, particularly in the fields of environmental science, engineering, and sustainable development. This term refers to the careful management and allocation of various materials in a way that maximizes efficiency while minimizing waste and environmental impact. Achieving this balance is essential for creating sustainable systems that can support both human needs and ecological health.To understand the importance of a comprehensive balance of materials, we must first consider the challenges posed by overconsumption and waste generation. As our population grows and industrial activities expand, the demand for raw materials increases, leading to the depletion of natural resources. Furthermore, traditional production methods often result in significant waste, contributing to pollution and environmental degradation. Therefore, it is crucial to adopt practices that promote the efficient use of materials.A comprehensive balance of materials involves several key strategies. First, it requires a thorough assessment of the life cycle of materials, from extraction to disposal. By analyzing each stage, we can identify opportunities for reducing waste and improving efficiency. For instance, using recycled materials in manufacturing processes not only conserves resources but also reduces energy consumption and emissions associated with new material production.Second, innovation plays a vital role in achieving a comprehensive balance of materials. Advances in technology can lead to the development of new materials that are more sustainable and easier to recycle. For example, biodegradable plastics and other eco-friendly alternatives can help mitigate the environmental impact of conventional materials. Moreover, innovative design practices, such as modular construction, can facilitate the reuse and recycling of materials at the end of their life cycle, further contributing to sustainability.Third, collaboration among various stakeholders is essential for establishing a comprehensive balance of materials. Governments, businesses, and consumers all have a role to play in promoting sustainable practices. Policies that incentivize recycling and the use of sustainable materials can encourage businesses to adopt greener practices. Likewise, consumer awareness and demand for sustainable products can drive companies to invest in more environmentally friendly materials and processes.Lastly, education and research are critical components in fostering a comprehensive balance of materials. By equipping individuals with knowledge about sustainable practices and the importance of resource conservation, we can cultivate a culture of sustainability. Research initiatives can also provide valuable insights into new materials and technologies that can enhance material efficiency and reduce waste.In conclusion, the pursuit of a comprehensive balance of materials is imperative for ensuring a sustainable future. By understanding the life cycle of materials, embracing innovation, fostering collaboration, and prioritizing education and research, we can create systems that not only meet human needs but also protect our planet. It is through these collective efforts that we can achieve a harmonious balance between development and environmental stewardship, paving the way for a healthier and more sustainable world for generations to come.

在当今快速发展的世界中，材料的综合平衡这一概念变得越来越重要，尤其是在环境科学、工程学和可持续发展领域。该术语指的是对各种材料进行仔细管理和分配，以最大限度地提高效率，同时最小化浪费和环境影响。实现这种平衡对于创建能够支持人类需求和生态健康的可持续系统至关重要。要理解材料的综合平衡的重要性，我们首先必须考虑过度消费和废物产生所带来的挑战。随着我们人口的增长和工业活动的扩展，对原材料的需求增加，导致自然资源的枯竭。此外，传统生产方法往往会产生大量废物，导致污染和环境退化。因此，采用促进材料高效利用的实践至关重要。材料的综合平衡涉及几个关键策略。首先，它需要对材料的生命周期进行全面评估，从提取到处置。通过分析每个阶段，我们可以识别减少废物和提高效率的机会。例如，在制造过程中使用回收材料不仅可以节约资源，还可以减少新材料生产所需的能源消耗和排放。其次，创新在实现材料的综合平衡中发挥着至关重要的作用。技术的进步可以导致开发出更可持续和更易于回收的新材料。例如，生物降解塑料和其他环保替代品可以帮助缓解传统材料对环境的影响。此外，模块化建筑等创新设计实践可以促进材料在其生命周期结束时的再利用和回收，进一步促进可持续性。第三，各方利益相关者之间的合作对于建立材料的综合平衡至关重要。政府、企业和消费者都在促进可持续实践方面发挥着作用。鼓励回收和使用可持续材料的政策可以促使企业采取更绿色的做法。同样，消费者对可持续产品的意识和需求可以推动公司投资于更环保的材料和工艺。最后，教育和研究是促进材料的综合平衡的关键组成部分。通过让个人了解可持续实践和资源保护的重要性，我们可以培养可持续文化。研究计划还可以提供有关新材料和技术的宝贵见解，从而提高材料效率并减少废物。总之，追求材料的综合平衡对于确保可持续未来至关重要。通过理解材料的生命周期、拥抱创新、促进合作以及优先考虑教育和研究，我们可以创建满足人类需求同时保护我们星球的系统。正是通过这些共同努力，我们才能在发展与环境管理之间实现和谐平衡，为未来几代人铺平更健康、更可持续的世界之路。