Effective Composites Employing Fast-Hardening Gypsum Cement Binders for Additive Manufacturing
- Natalia Vasilyevna Chernysheva, Valery Stanislavovich Lesovik, Evgeny Sergeyevich Glagolev, Aleksandr Anatolevich Volodchenko
- Corresponding Author
- Natalia Vasilyevna Chernysheva
Available Online July 2017.
- https://doi.org/10.2991/aime-17.2017.23How to use a DOI?
- 3D-technologies, additive manufacturing, composite gypsum binders, mineral additive, construction composite
- Currently, development and implementation of new technologies has come to the fore in every field of industrial production. Interest to additive manufacturing grows in Russia and abroad, including application of such technologies in architecture and construction, allowing production of forms and structures with previously unattainable forms and complexity layer-by-layer. To this end, the authors propose using a new generation of waterproof and frost-proof gypsum-based composite binders with fine-milled mineral additives of diverse genesis, including a unique additive previously unknown to be used in construction material science, namely mining waste from wet magnetic separation of jaspilite, which significantly differs from traditional quartz raw material. Due to their specific composition and morphology, wet magnetic separation waste in gypsum cement mixtures gives a significant increase in strength (up to 30 MPa), water resistance (up to 0.8) and frost-proofness
- Open Access
- This is an open access article distributed under the CC BY-NC license.
Cite this article
TY - CONF AU - Natalia Vasilyevna Chernysheva AU - Valery Stanislavovich Lesovik AU - Evgeny Sergeyevich Glagolev AU - Aleksandr Anatolevich Volodchenko PY - 2017/07 DA - 2017/07 TI - Effective Composites Employing Fast-Hardening Gypsum Cement Binders for Additive Manufacturing BT - International Conference "Actual Issues of Mechanical Engineering" 2017 (AIME 2017) PB - Atlantis Press SN - 2352-5401 UR - https://doi.org/10.2991/aime-17.2017.23 DO - https://doi.org/10.2991/aime-17.2017.23 ID - Chernysheva2017/07 ER -