Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Inorganic material and manufacturing process for preparing inorganic material reinforcing ribs from inorganic material
The invention provides an inorganic material and a manufacturing process for preparing an inorganic material reinforcing rib from the inorganic material. The inorganic material comprises magnesium oxide with a weight of W, a solution prepared from MgSO4, having a baume degree of 30 and having a weight accounting for 85% of the W, a modifier with a weight accounting for 1-1.5% of the W, sawdust with a weight accounting for 10% of the W, glass beads with a density of 700 cm<3>/1000 g of MgO, and polypropylene fibers with a weight accounting for 1% of the W. The application of the inorganic material reinforcing rib has great market potential and development prospects, the application bottleneck that traditional reinforcing ribs are unchanged for many years is completely broken through, the phenomenon of nail disengaging is thoroughly eliminated, and the awkward situation that nail disengaging is found when a product arrives at a construction site and is unpacked is avoided. Reliable installation and use guarantee is provided for application of anodic aluminum oxide plates, point stress is completely avoided, and overall stress and force transmission of the reinforcing rib are achieved. Production enterprises can change production processes, production efficiency is improved, workers are reduced, and the process is integrated into a flexible production line process for aluminum alloy sheet metal machining to realize automatic production.
本发明提供一种无机材料及其制备成无机材料加强筋的制作工艺,其无机材料,包含重量为W的氧化镁;85%W由MgSO4配成30°Bé的溶液;1~1.5%W的改性剂;10%W的锯木梢;700cm3/1000gMgO的玻化微珠,1%W的聚丙稀纤维。本发明的无机材料加强筋技术的应用具有极大的市场潜力和发展前景,完全打破了传统加强筋多年不变的应用瓶颈,彻底消除“脱钉”现象,避免产品到达工地后开包发现“脱钉”时的窘境。对阳极氧化铝板的应用提供可靠的安装使用保障,完全避免点受力,实现加强筋整体受力传力。可以使生产企业改变生产工艺,提高生产效率,减少人员编制,融入到铝合金钣金加工柔性生产线工艺中,实现自动化生产。
Inorganic material and manufacturing process for preparing inorganic material reinforcing ribs from inorganic material
The invention provides an inorganic material and a manufacturing process for preparing an inorganic material reinforcing rib from the inorganic material. The inorganic material comprises magnesium oxide with a weight of W, a solution prepared from MgSO4, having a baume degree of 30 and having a weight accounting for 85% of the W, a modifier with a weight accounting for 1-1.5% of the W, sawdust with a weight accounting for 10% of the W, glass beads with a density of 700 cm<3>/1000 g of MgO, and polypropylene fibers with a weight accounting for 1% of the W. The application of the inorganic material reinforcing rib has great market potential and development prospects, the application bottleneck that traditional reinforcing ribs are unchanged for many years is completely broken through, the phenomenon of nail disengaging is thoroughly eliminated, and the awkward situation that nail disengaging is found when a product arrives at a construction site and is unpacked is avoided. Reliable installation and use guarantee is provided for application of anodic aluminum oxide plates, point stress is completely avoided, and overall stress and force transmission of the reinforcing rib are achieved. Production enterprises can change production processes, production efficiency is improved, workers are reduced, and the process is integrated into a flexible production line process for aluminum alloy sheet metal machining to realize automatic production.
本发明提供一种无机材料及其制备成无机材料加强筋的制作工艺,其无机材料,包含重量为W的氧化镁;85%W由MgSO4配成30°Bé的溶液;1~1.5%W的改性剂;10%W的锯木梢;700cm3/1000gMgO的玻化微珠,1%W的聚丙稀纤维。本发明的无机材料加强筋技术的应用具有极大的市场潜力和发展前景,完全打破了传统加强筋多年不变的应用瓶颈,彻底消除“脱钉”现象,避免产品到达工地后开包发现“脱钉”时的窘境。对阳极氧化铝板的应用提供可靠的安装使用保障,完全避免点受力,实现加强筋整体受力传力。可以使生产企业改变生产工艺,提高生产效率,减少人员编制,融入到铝合金钣金加工柔性生产线工艺中,实现自动化生产。
Inorganic material and manufacturing process for preparing inorganic material reinforcing ribs from inorganic material
一种无机材料及其制备成无机材料加强筋的制作工艺
GAO FENGXI (Autor:in) / YOU NANLAI (Autor:in)
30.10.2020
Patent
Elektronische Ressource
Chinesisch
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