A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention belongs to the technical field of building materials and relates to a novel energy-saving concrete material. The novel energy-saving concrete material is prepared from the following rawmaterials in parts by weight: 25-40 parts of cement, 10-30 parts of shell particles, 30-40 parts of plant particles, 15-40 parts of sand, 5-10 parts of glass fibers and the balance of water. The preparation method comprises the following steps of: S1, preparing plant particles, namely crushing plant straws into fine particles by using a crusher, sieving the crushed fine particles by using a 100-200-mesh sieve, adding an adhesive, and pressing an obtained mixture into the plant particles by using a biological granulator; S2, preparing glass fibers, namely cleaning recycled glass, drying the glass, melting the glass in a crucible, and injecting the molten glass into a wire drawing machine for wire drawing to obtain the glass fibers. The flow of the preparation method is simple; production can be carried out by adopting equipment in the prior art; the curing condition is relatively simple; the processes of autoclaved curing, high-temperature sintering and the like are not needed, so thatthe energy consumption is reduced, and therefore, the energy-saving effect of the concrete material is realized.
本发明涉及建筑材料技术领域,具体是一种新型节能混凝土材料,包括由以下重量百分比的原料制成:水泥25‑40份、贝壳粒10‑30份、植物颗粒30‑40份、砂子15‑40份、玻璃纤维5‑10份、其余为水,包括以下步骤:S1.造植物颗粒:将植物秸秆使用粉碎机进行粉碎成细小颗粒,并将粉碎后的细小颗粒过100‑200目筛后加入粘合剂使用生物颗粒机压制成植物颗粒;S2.制玻璃纤维:将回收的玻璃进行清洗干净,干燥后放入坩埚进行熔融,再将熔融的玻璃并注入拉丝机进行拉丝成玻璃纤维。本发明本发明流程简单,采用现有技术设备即可进行生产,养护条件相对简单,无需进行蒸压养护、高温烧结等工序,减少能源的消耗,因此实现了混凝土材料的节能的效果。
The invention belongs to the technical field of building materials and relates to a novel energy-saving concrete material. The novel energy-saving concrete material is prepared from the following rawmaterials in parts by weight: 25-40 parts of cement, 10-30 parts of shell particles, 30-40 parts of plant particles, 15-40 parts of sand, 5-10 parts of glass fibers and the balance of water. The preparation method comprises the following steps of: S1, preparing plant particles, namely crushing plant straws into fine particles by using a crusher, sieving the crushed fine particles by using a 100-200-mesh sieve, adding an adhesive, and pressing an obtained mixture into the plant particles by using a biological granulator; S2, preparing glass fibers, namely cleaning recycled glass, drying the glass, melting the glass in a crucible, and injecting the molten glass into a wire drawing machine for wire drawing to obtain the glass fibers. The flow of the preparation method is simple; production can be carried out by adopting equipment in the prior art; the curing condition is relatively simple; the processes of autoclaved curing, high-temperature sintering and the like are not needed, so thatthe energy consumption is reduced, and therefore, the energy-saving effect of the concrete material is realized.
本发明涉及建筑材料技术领域,具体是一种新型节能混凝土材料,包括由以下重量百分比的原料制成:水泥25‑40份、贝壳粒10‑30份、植物颗粒30‑40份、砂子15‑40份、玻璃纤维5‑10份、其余为水,包括以下步骤:S1.造植物颗粒:将植物秸秆使用粉碎机进行粉碎成细小颗粒,并将粉碎后的细小颗粒过100‑200目筛后加入粘合剂使用生物颗粒机压制成植物颗粒;S2.制玻璃纤维:将回收的玻璃进行清洗干净,干燥后放入坩埚进行熔融,再将熔融的玻璃并注入拉丝机进行拉丝成玻璃纤维。本发明本发明流程简单,采用现有技术设备即可进行生产,养护条件相对简单,无需进行蒸压养护、高温烧结等工序,减少能源的消耗,因此实现了混凝土材料的节能的效果。
Novel thermal-insulation energy-saving building material
| European Patent Office | 2021
Energy Saving Buildings with Concrete
| NTIS | 1984