The present disclosure relates to a cement or concrete composition comprising a hydraulic binder, a water reducing plasticiser, a rheological additive, and composite spheres for lowering the density of the composition, wherein the composite spheres comprise a core having one or more coating layers thereon.

The present disclosure relates to a cement or concrete composition comprising a hydraulic binder, a water reducing plasticiser, a rheological additive, and composite spheres for lowering the density of the composition, wherein the composite spheres comprise a core having one or more coating layers thereon.

The present invention relates to a modified mineral-based filler comprising at least one alkaline earth metal carbonate-comprising material, and at least one water insoluble copper salt comprising the copper mineral malachite in an amount of at least 10 wt.-%, which covers at least partially the surface of the at least one alkaline earth metal carbonate-comprising material, and a method of producing the same.

The present invention relates to a modified mineral-based filler comprising at least one alkaline earth metal carbonate-comprising material, and at least one water insoluble copper salt comprising the copper mineral malachite in an amount of at least 10 wt.-%, which covers at least partially the surface of the at least one alkaline earth metal carbonate-comprising material, and a method of producing the same.

A lightweight insulative and fire-retardant building material and component and manufacturing process are disclosed. The building material is based on cellulose impregnated with clay and can be formed in the form of posts, columns, bricks, blocks, and panels.

A lightweight insulative and fire-retardant building material and component and manufacturing process are disclosed. The building material is based on cellulose impregnated with clay and can be formed in the form of posts, columns, bricks, blocks, and panels.

A construction material mixture contains a dry mass of 10 to 98 wt. % carbon and 2 to 70 wt. % binding agent. The construction material mixture further comprises 1 to 80 wt. % loose particles, wherein the surface of the loose particles is at least partially coated with an electrically conductive material.

A construction material mixture contains a dry mass of 10 to 98 wt. % carbon and 2 to 70 wt. % binding agent. The construction material mixture further comprises 1 to 80 wt. % loose particles, wherein the surface of the loose particles is at least partially coated with an electrically conductive material.

The present invention relates to a modified red mud/a modified bauxite residue and also to processes for the production thereof and to a storage medium comprising a modified red mud, to a heat storage means comprising a storage medium and to numerous uses of a modified red mud as storage medium, in particular in a heat storage means. The modified red mud contains the following components: haematite (Fe.sub.2O.sub.3), corundum (Al.sub.2O.sub.3), rutile (TiO.sub.2) and/or anatase (TiO.sub.2), quartz (SiO.sub.2), optionally perowskite (CaTiO.sub.3) and optionally pseudobrookite ((Fe.sup.3+,Fe.sup.2+).sub.2(Ti,Fe.sup.3+)O.sub.5), nepheline ((Na,K)[AlSiO.sub.4]) and/or hauynite ((Na,Ca).sub.4-8[Al.sub.6Si.sub.6O.sub.24(SO.sub.4)]), wherein the modified red mud is substantially free from Na.sub.2O and/or glass. A novel material is thus provided, and the production thereof for use as a storage medium in a sensitive energy storage system in the low-, medium- or high-temperature range is described.

The present invention relates to a modified red mud/a modified bauxite residue and also to processes for the production thereof and to a storage medium comprising a modified red mud, to a heat storage means comprising a storage medium and to numerous uses of a modified red mud as storage medium, in particular in a heat storage means. The modified red mud contains the following components: haematite (Fe.sub.2O.sub.3), corundum (Al.sub.2O.sub.3), rutile (TiO.sub.2) and/or anatase (TiO.sub.2), quartz (SiO.sub.2), optionally perowskite (CaTiO.sub.3) and optionally pseudobrookite ((Fe.sup.3+,Fe.sup.2+).sub.2(Ti,Fe.sup.3+)O.sub.5), nepheline ((Na,K)[AlSiO.sub.4]) and/or hauynite ((Na,Ca).sub.4-8[Al.sub.6Si.sub.6O.sub.24(SO.sub.4)]), wherein the modified red mud is substantially free from Na.sub.2O and/or glass. A novel material is thus provided, and the production thereof for use as a storage medium in a sensitive energy storage system in the low-, medium- or high-temperature range is described.