Evaluation of the mechanical properties and durability of self-compacting alkali-activated mortar made from boron waste and granulated blast furnace slag
The production of high-strength alkali-activated mortar and concrete by using waste
materials instead of cement in order to reduce the amount of carbon dioxide released to …
materials instead of cement in order to reduce the amount of carbon dioxide released to …
Resistance to magnesium sulphate attack of binary and ternary cementless self-compacting alkali-activated mortar
The aim of this study is to investigate the effect of sulphate on self-compacting alkali-
activated mortars (SCAAMs) produced using volcanic scoria (V), boron waste (B) and …
activated mortars (SCAAMs) produced using volcanic scoria (V), boron waste (B) and …
Prediction of gas product yield from packaging waste pyrolysis: support vector and Gaussian process regression models
The pyrolysis process enables the transformation of plastic waste into products such as oil,
solid residue, and gas at temperatures of around 300–900° C by thermal decomposition …
solid residue, and gas at temperatures of around 300–900° C by thermal decomposition …
Optimizing the particle size distribution of heat-treated boron derivative wastes in cement mortars as Portland cement replacements
Heat-treated boron derivative wastes (HTBDWs) having three different particle size
distributions (PSDs) were used as Portland cement replacements by 25 wt%. In contrast to …
distributions (PSDs) were used as Portland cement replacements by 25 wt%. In contrast to …
Sustainable use of boron waste and volcanic scoria in slag-based self-compacting alkali-activated mortars: Fresh, mechanical and durability properties
Sustainable self-compacting alkali-activated concrete (SCAAC) manufacturing is an
environmentally friendly concrete that has a reduced carbon footprint than ordinary concrete …
environmentally friendly concrete that has a reduced carbon footprint than ordinary concrete …
Utilisation of waste clay from boron production as a landfill liner material
The objective of this study was to investigate the potential utilisation of waste clay from boron
production in sanitary landfills. The waste clay (CW) was mixed with bentonite (B) and waste …
production in sanitary landfills. The waste clay (CW) was mixed with bentonite (B) and waste …
In vitro cytotoxicity of monticellite based bioactive ceramic powder synthesized from boron derivative waste
The cytotoxicity of monticellite based bioactive ceramic powder, which was synthesized from
boron derivative waste has been determined by in vitro assays of MTT, NRU, and JC-1 …
boron derivative waste has been determined by in vitro assays of MTT, NRU, and JC-1 …
A novel approach for synthesis of monticellite based bioactive ceramic powders from boron derivative waste
Monticellite bioactive ceramics have a high usage potential as bone graft substitutes due to
their superior mechanical properties compared to hydroxyapatite and excellent bioactivity …
their superior mechanical properties compared to hydroxyapatite and excellent bioactivity …
Utilization of Waste Clay from Boron Production in Bituminous Geosynthetic Barrier (GBR‐B) Production as Landfill Liner
Bituminous geomembranes, one type of geosynthetics, include a hot bituminous mixture
with mineral filler and reinforcement. In this study, boron production waste clay (CW) was …
with mineral filler and reinforcement. In this study, boron production waste clay (CW) was …
The use of boron waste clay to improve the geotechnical properties of a high plasticity clay
ZN Kurt Albayrak, E Turan - Arabian Journal of Geosciences, 2021 - Springer
Boron minerals containing varying proportions of boron oxide are widely used in industry.
Seventy-three percent of the world's known boron mineral reserves are in Turkey. When …
Seventy-three percent of the world's known boron mineral reserves are in Turkey. When …