@article{Snellings_2016, title={Assessing, Understanding and Unlocking Supplementary Cementitious Materials}, volume={1}, url={https://letters.rilem.net/index.php/rilem/article/view/12}, DOI={10.21809/rilemtechlett.2016.12}, abstractNote={<p class="lmsabstractCxSpFirst">The partial replacement of Portland clinker by supplementary cementitious materials (SCM) is one of the most popular and effective measures to reduce both costs and CO<sub>2</sub> emissions related to cement production. An estimated 800 Mt/y of blast furnace slags, fly ashes and other materials are currently being used as SCM, but still the cement industry accounts for 5-8% of global CO<sub>2</sub> emissions. If no further actions are taken, by the year 2050 this share might even rise beyond 25%. There is thus a clear challenge as to how emissions will be kept at bay and sustainability targets set by international commitments and policy documents will be met.</p><p class="lmsabstractCxSpLast">Part of the solution will be a further roll-out of blended cements in which SCMs constitute the main part of the binder to which activators such as Portland cement are added. Since supply concerns are being raised for conventional high-quality SCMs it is clear that new materials and beneficiation technologies will need to step in to achieve further progress. This paper presents opportunities and challenges for new SCMs and demonstrates how advances towards more powerful and reliable characterisation techniques help to better understand and exploit SCM reactivity.</p>}, journal={RILEM Technical Letters}, author={Snellings, Ruben}, year={2016}, month={Aug.}, pages={50–55} }