141 |
PLASTIC REFRACTORY HIGH-TEMPERATURE RESISTANT MATERIAL AND REFRACTORY HIGH-TEMPERATURE RESISTANT MORTAR |
PCT/EP2011000871 |
2011-02-23 |
WO2011104007A3 |
2011-10-20 |
ANGENENDT RAINER; GENTH PEER |
The plastic refractory high-temperature resistant material or the refractory high-temperature resistant mortar have a classification temperature of 900 to 1600°C, harden when dried and contain at least two light-weight fillers, a binder, fibers and/or wollastonite as well as water. The light-weight fillers are fly ash cenospheres or blown closed-cell volcanic ash provided with a superficial water-protection layer. An inorganic-organic hybrid binder is used as the binder, said binder containing silicic acid and an acrylate-based polymer. The material or the mortar contains white clay or kaolinite and silicon dioxide in the form of silica gel or silica. |
142 |
AEROGEL COMPOSITES WITH COMPLEX GEOMETRIES |
PCT/US2006027975 |
2006-07-18 |
WO2007011988A2 |
2007-01-25 |
OU DUAN LI; WHITE SHANNON O |
The present disclosure describes aerogel composites comprising organic-inorganic hybrid aerogel particulates and binders, in particular systems with aerogel and binders covalently bonded along with methods for preparing the same. Said composites can be formed into articles having complex geometries. |
143 |
METHOD FOR PREPARING MATERIALS CONTAINING BINDER SYSTEMS DERIVED FROM AMORPHOUS SILICA AND BASES |
PCT/DK2004000520 |
2004-07-30 |
WO2005012203A3 |
2005-05-19 |
HOLBEK KJELD; SOEGAARD ERIK GYDESEN |
The present invention concerns a method for preparing materials containing binder systems derived from amorphous silica and bases as well as the materials prepared by the method. Relative to known methods, the present invention allows for continuous production of material as the two components of the binder are brought onto into contact where the binder system is to be applied. The product achieved by the invention has a broad range of applications, such as for construction materials, insulating materials, fire proof materials, reinforcement materials etc. the present invention also relates to a method for preparing materials containing binder systems derived from amorphous inorganic material and bases as well as the materials prepared by the method. |
144 |
DIMENSIONALLY STABLE GEOPOLYMER COMPOSITIONS AND METHOD |
PCT/US2013037271 |
2013-04-19 |
WO2013163010A8 |
2014-05-30 |
DUBEY ASHISH |
A method for making geopolymer cementitious binder compositions for cementitious products such as concrete, precast construction elements and panels, mortar and repair materials, and the like is disclosed. The geopolymer cementitious compositions of some embodiments are made by mixing a synergistic mixture of thermally activated aluminosilicate mineral, calcium aluminate cement, a calcium sulfate and a chemical activator with water |
145 |
LIGHT PASTE-LIKE REFRACTORY ADHESIVES AND THEIR USE |
PCT/EP2011000874 |
2011-02-23 |
WO2011104010A3 |
2011-10-20 |
ANGENENDT RAINER; MESCHKE HEIKE |
The light paste-like refractory adhesives which harden when dried and which contain at least one light-weight filler, a binder, fibers and/or wollastonite and water are characterized in that an organic-inorganic binder (hybrid binder) is used as the binder, said binder containing finely divided silicic acid and an organic polymer. The material or the mortar contains white clay or kaolinite and silica gel, especially silica. |
146 |
PLASTIC REFRACTORY MATERIAL AND REFRACTORY MORTAR |
PCT/EP2011000869 |
2011-02-23 |
WO2011104005A3 |
2011-10-20 |
ANGENENDT RAINER; GENTH PEER |
A plastic refractory material or a refractory mortar which harden when dried and which contain at least one light-weight filler, a binder, fibers and/or wollastonite as well as water is characterized in that blown closed-cell volcanic ash is used as the light-weight filler, said ash being provided with a superficial water-protection layer, in that an inorganic-organic hybrid binder is used as the binder, said binder containing silicic acid and an organic polymer, and in that the material or the mortar contains white clay or kaolinite and silicon dioxide. |
147 |
HEAT-INSULATING REFRACTORY HIGH-TEMPERATURE RESISTANT MOLDED ARTICLE |
PCT/EP2011000872 |
2011-02-23 |
WO2011104008A2 |
2011-09-01 |
ANGENENDT RAINER; GENTH PEER |
A heat-insulating refractory high-temperature resistant molded article which is suitable for continuous service temperatures of 1200 to 1600°C and contains several light-weight fillers, a reaction product of the thermal hardening of a binder and fibers and/or wollastonite, is characterized by containing fly ash cenospheres and blown closed-cell volcanic rock cenospheres as the light-weight fillers, by containing fluxing agents and by containing silicon dioxide as the reaction product of the thermal hardening of the binder. |
148 |
METHOD OF PRODUCING A SOLID MINERAL MATERIAL |
PCT/FR2006050015 |
2006-01-11 |
WO2006075118A2 |
2006-07-20 |
VISOCEKAS FABRICE; WAENDENDRIES FRANCOIS |
The invention relates to a method of producing a solid mineral material, comprising the following steps, namely: a step a) consisting in producing a mixture of at least three compositions, said mixture containing at least (i) silicon, (ii) aluminium and (iii) calcium and/or magnesium; a step b) consisting in shaping the paste thus obtained; and, subsequently, a step b) consisting in drying same at atmospheric pressure and at a temperature of less than 99 °C. |