Climate Change is the hot topic in world scenarios and UNFCCC (United Nations Framework Convention on Climate Change), a convention of the United Nations enables sustainable resource utilization. Disposing of industrial and agricultural wastes into air, water and land poses a great threat to mankind and the environment. Effective utilization of waste including hazardous nature can be subsumed pragmatically by the construction industry. Substituting agro-industrial waste materials into the construction process will conserve dwindling resources and lead to a step towards sustainability. The present study introduces a new dimension to construction materials by classifying them into exhaustive and mutually exclusive categories of major and ancillary construction materials. Major construction materials are building blocks of civil engineering whereas ancillary construction materials add value to the construction. Over the past decades, researchers have successfully applied sustainability concepts for the major construction materials. Ancillary construction materials shall be conceivably characterized as supplementary, commercial and expensive. They are less studied and lack research status at par with major construction materials. Bibliometric analysis helps to identify and understand ancillary construction materials' wide research gap over major construction materials. The article is aimed to showcase the differentiation in construction materials by intensive bibliometric analysis of construction materials and available traditional literature review of ancillary construction materials. Therefore, more collaboration of civil engineering researchers with other fields shall improve the research impetus in the field of ancillary construction materials. This multi-disciplinary approach shall be satisfactorily applied for addressing global concerns like climate change and industrial sustainability, which shall pervade the infrastructure industry. This review stresses the need for a shift in research ideology for comprehensive waste utilization in ancillary construction materials in line with major construction materials towards achieving resilient sustainable construction and the environment as a whole.

气候变化是世界情景中的热门话题，联合国气候变化框架公约（UNFCCC）是一项联合国公约，能够实现资源的可持续利用。将工业和农业废弃物排放到空气、水和土地中，对人类和环境构成巨大威胁。建筑业可以务实地有效利用包括危险性质的废物。在建筑过程中替代农工业废料将节省日益减少的资源，并朝着可持续发展迈出一步。本研究通过将建筑材料分类为详尽且相互排斥的主要和辅助建筑材料类别，为建筑材料引入了一个新维度。主要建筑材料是土木工程的基石，而辅助建筑材料则为建筑增值。在过去的几十年中，研究人员已成功地将可持续性概念应用于主要建筑材料。可以想象，辅助建筑材料应具有补充性、商业性和昂贵的特征。它们的研究较少，缺乏与主要建筑材料同等的研究地位。文献计量分析有助于识别和了解辅助建筑材料在主要建筑材料方面的广泛研究差距。本文旨在通过对建筑材料的深入文献计量分析和对辅助建筑材料的现有传统文献回顾来展示建筑材料的差异。所以，土木工程研究人员与其他领域的更多合作，将提高辅助建筑材料领域的研究动力。这种多学科的方法将被令人满意地应用于解决全球关注的问题，如气候变化和工业可持续性，这些问题将遍及基础设施行业。本综述强调需要转变研究理念，将辅助建筑材料中的综合废物利用与主要建筑材料相一致，以实现有弹性的可持续建筑和整体环境。这种多学科的方法将被令人满意地应用于解决全球关注的问题，如气候变化和工业可持续性，这些问题将遍及基础设施行业。本综述强调需要转变研究理念，将辅助建筑材料中的综合废物利用与主要建筑材料相一致，以实现有弹性的可持续建筑和整个环境。这种多学科的方法将被令人满意地应用于解决全球关注的问题，如气候变化和工业可持续性，这些问题将遍及基础设施行业。本综述强调需要转变研究理念，将辅助建筑材料中的综合废物利用与主要建筑材料相一致，以实现有弹性的可持续建筑和整体环境。