A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Outer wall vacuum plate and vacuum plate construction process
The invention relates to an outer wall vacuum plate and a vacuum plate construction process, the outer wall vacuum plate comprises an aluminum veneer, a vacuum-suction heat-preservation plate and a back plate, and the vacuum-suction heat-preservation plate is prepared from the following components in parts by weight: 10-19 parts of basalt fiber, 15-21 parts of a polyurethane heat-preservation material, 20-26 parts of nano CSH-PCE solution recycled aggregate, 20-13 parts of a polymer matrix, 24-10 parts of SMA fiber and 11 parts of a vacuum adhesive. The basalt fiber, the polyurethane thermal insulation material and the nano CSH-PCE solution recycled aggregate are combined, so that not only is the basalt fiber combined with the polyurethane thermal insulation material, but also the nano CSH-PCE solution recycled aggregate is mixed into the basalt fiber and the polyurethane thermal insulation material, so that the thermal insulation performance of the thermal insulation material is improved; the nano CSH-PCE solution can be used for regenerating the aggregate, so that the compressive strength and the durability of the aggregate are effectively improved, and the compressive strength and the durability of the whole plate body are improved.
本发明涉及一种外墙真空板及真空板施工工艺,包括铝单板、吸真空保温板和背板,吸真空保温板包括以下重量份计数的成分制成:玄武岩纤维10‑19份、聚氨酯保温材料15‑21份、纳米CSH‑PCE溶液再生骨料20‑26份、聚合物基体20‑13份、SMA纤维24‑10份、真空胶黏剂11份,本发明通过玄武岩纤维、聚氨酯保温材料和纳米CSH‑PCE溶液再生骨料的结合,不仅将玄武岩纤维与聚氨酯保温材料结合,而且,将纳米CSH‑PCE溶液再生骨料掺混在玄武岩纤维与聚氨酯保温材料中,能够利用纳米CSH‑PCE溶液再生骨料有效提升其抗压强度和耐久性能,使整个板体提升了抗压性和耐久性。
Outer wall vacuum plate and vacuum plate construction process
The invention relates to an outer wall vacuum plate and a vacuum plate construction process, the outer wall vacuum plate comprises an aluminum veneer, a vacuum-suction heat-preservation plate and a back plate, and the vacuum-suction heat-preservation plate is prepared from the following components in parts by weight: 10-19 parts of basalt fiber, 15-21 parts of a polyurethane heat-preservation material, 20-26 parts of nano CSH-PCE solution recycled aggregate, 20-13 parts of a polymer matrix, 24-10 parts of SMA fiber and 11 parts of a vacuum adhesive. The basalt fiber, the polyurethane thermal insulation material and the nano CSH-PCE solution recycled aggregate are combined, so that not only is the basalt fiber combined with the polyurethane thermal insulation material, but also the nano CSH-PCE solution recycled aggregate is mixed into the basalt fiber and the polyurethane thermal insulation material, so that the thermal insulation performance of the thermal insulation material is improved; the nano CSH-PCE solution can be used for regenerating the aggregate, so that the compressive strength and the durability of the aggregate are effectively improved, and the compressive strength and the durability of the whole plate body are improved.
本发明涉及一种外墙真空板及真空板施工工艺,包括铝单板、吸真空保温板和背板,吸真空保温板包括以下重量份计数的成分制成:玄武岩纤维10‑19份、聚氨酯保温材料15‑21份、纳米CSH‑PCE溶液再生骨料20‑26份、聚合物基体20‑13份、SMA纤维24‑10份、真空胶黏剂11份,本发明通过玄武岩纤维、聚氨酯保温材料和纳米CSH‑PCE溶液再生骨料的结合,不仅将玄武岩纤维与聚氨酯保温材料结合,而且,将纳米CSH‑PCE溶液再生骨料掺混在玄武岩纤维与聚氨酯保温材料中,能够利用纳米CSH‑PCE溶液再生骨料有效提升其抗压强度和耐久性能,使整个板体提升了抗压性和耐久性。
Outer wall vacuum plate and vacuum plate construction process
一种外墙真空板及真空板施工工艺
ZHANG YANLING (author) / ZHANG YONGSHENG (author)
2024-10-25
Patent
Electronic Resource
Chinese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
/
B29C
Formen oder Verbinden von Kunststoffen
,
SHAPING OR JOINING OF PLASTICS
/
B29L
INDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
,
Index-Schema für besondere Gegenstände in Verbindung mit Unterklasse B29C
/
C04B
Kalk
,
LIME
/
C08K
Verwendung von anorganischen oder nichtmakromolekularen organischen Stoffen als Zusatzstoffe
,
USE OF INORGANIC OR NON-MACROMOLECULAR ORGANIC SUBSTANCES AS COMPOUNDING INGREDIENTS
/
C08L
COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
,
Massen auf Basis makromolekularer Verbindungen
| European Patent Office | 2024
| European Patent Office | 2023