CZ23527U1 - Thermally insulating geopolymeric material based on recycled polystyrene - Google Patents

Description

Thermal insulating geopolymic mass based on recycled polystyrene

Technical field

The technical solution relates to the composition of geopolymers with thermal insulating properties based on recycled polystyrene as a filler, which is suitable for use in prefabricated production of construction parts and products.

BACKGROUND OF THE INVENTION

At present, there is a wide range of various thermal insulation materials with different properties on the market.

The best thermal insulators include extruded polystyrene, expanded polystyrene, urethane poles, mineral and glass insulation and foam glass. Thermal conductivity of the insulator is in the range 0.02 to 0.09 W.níÚK ^'first Most of these materials achieve low compressive strengths and therefore it is necessary to use another, load bearing material in the construction at the same time. When used especially in contact thermal insulation systems and sandwich masonry systems, their disadvantages are fully manifested, especially non-ecological, solubility in organic solvents15, high demands on quality of construction and dependence on environmental influences.

Another group of thermally insulating materials are materials to which light aggregate is added as a filler. This results in a partial reduction of the thermal conductivity coefficient and an improvement in the thermal insulation properties at the expense of a significant reduction in strength properties. These materials include, for example, polystyrene concrete and perlit concrete, keramzitbeton and various other types of mortar and concrete. The thermal conductivity of these materials ranges from 0.09 to 1.4 Wm &^lt; -1 ^> K &^lt; ^-1 & gt ^; . The disadvantage is high price, demanding design and unecological.

The third group of thermal insulators consists of materials which directly use air pores in their structure as a barrier to heat conduction. These include, in particular, aerated concrete and aerated concrete. The advantage is the low thermal conductivity on the boundary moving from 0.085 to 0.2 ^l .K W.rn ^_i, disadvantages are considerably low compressive strength at values ranging from 0.3 to 5 MPa and high water absorption.

In almost all of the above groups, conventional cement-based or clay bricks, etc., are used as the main matrix of the mass or the resulting load-bearing building structure.

The subject matter of the industrial property is a mass in which a completely different support element is used as the matrix, namely an alkali activated blast furnace slag-based system and recycled polystyrene, a material with extremely low bulk density, is used as a filler. The material is formed by mixing a clearly defined ratio of the individual components and achieves excellent thermal insulation parameters.

The essence of the technical solution

The essence of the subject of industrial property is a geopolymic mass based on recycled polystyrene with proven properties.

The composition comprises a binder component consisting of blast furnace slag and treated waterglass solution, water, and a filler consisting of recycled polystyrene. The mass consists of 60 to 64 kg of blast furnace slag, 3 to 3.5 kg of recycled polystyrene, 21 to

22 kg of treated water glass having a silicate module of 1.7 to 2.5, and 11 to 14 liters of water.

The subject matter of the industrial property is a mass in which a completely different support element is used as the matrix, namely an alkali-activated blast-furnace slag-based system and recycled polystyrene, a material with extremely low bulk density, is used as a filler. The mass is created by mixing a clearly defined ratio of individual components and achieves excellent thermal insulation parameters.

- 1 C7. 23527 Ul

The advantage of the proposed technical solution is the possibility to use alternative binder systems and recycled filler while maintaining the required mechanical properties while achieving excellent thermal insulation properties.

Examples of technical solution

An exemplary composition of a thermally insulating geopolymic mass based on recycled polystyrene according to the invention comprises 62.4 kg of blast furnace slag blast furnace slag, 21.9 kg treated waterglass activated with 50% sodium hydroxide, 12.41 water, 3 kg of recycled polystyrene, corresponding to approximately 1111 in volume.

The following properties were found for the material so formed:

Property under investigation Obtained value  Density in the dried state 840 kg / m ³ I · · ...... ..... Compressive strength after 7 days of maturation 5.5 MPa 1 Compressive strength after 28 days of maturation 5,5 MPa Thermal conductivity coefficient 0,12W.m ' ¹ .K *'

PROTECTION REQUIREMENTS

Claims (1)

Geopolymic mass based on recycled polystyrene, characterized in that 100 kg of mass consists of 60 to 64 kg of blast furnace slag, 3 to 3.5 kg of recycled polystyrene, 21 to 22 kg of treated water glass having a silicate modulus of 1.7 to 2.5, and 11 to 141 water.