KR20160137759A - Impact,blast composite panel manufacturing techniques using a composite fiber and an adhesive - Google Patents

Abstract

The present invention relates to a composite panel manufacturing technique, reducing the weight and improving strength and fire-resistance of each single layer configuration material of a panel to maximize impact and blast performance through individual special performance of each single layer and a composite panel composition. A nanoprocess zeolite material is added to an adhesive made of an urethane material to integrate a composite fiber outer layer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a composite panel manufacturing method using a composite fiber and an adhesive,

Maintenance and reinforcement technology of existing civil engineering and building

Advanced fiber fabrication technologies such as carbon fiber and aramid fiber and reinforcing panel making technology using the fiber

1. Improves the function of external force and refractory by making the fiber produced in domestic is made into the shape of panel in the form of envelope through proper blending of high tensile strength fiber and stretchable fiber and compression molding

2. Adhesion and filler development to integrate the behavior characteristics of the materials to maintain the strong adhesion with the composite fiber shell by adding nanocomposite materials with high density and light weight compared to existing fillers in refractory performance and urethane-based adhesives

It can improve lightweight, high strength and fireproof performance of each single layer of panel, so that it is possible to maximize protection explosion performance by combining individual special performance of individual layers and composite panels.

1. Additional structural and functional enhancement expectation such as securing international technological competitiveness by developing high-performance composite material and material source technology for protection / explosion-proof reinforcement and protecting explosion-proof performance of existing main facilities as well as strengthening seismic performance

2. Protecting major facilities in the country and minimizing social disruption in preparation for possible future anthropogenic disasters, contributing to the credibility of the government.

3. Due to increased safety awareness of ultra-high-rise buildings and nuclear power structures, the total domestic market size required for impact and explosion protection is forecast to be over KRW 3 trillion over the next five years. Among them, the market size of protective materials and products related to construction is about 5,000 It is expected to generate profits in economic and industrial aspects

4. Investments in the development of defense structures in defense facilities are insufficient. Based on the government budget in 2012, the total defense budget is about 33 trillion won, and the improvement and maintenance cost of the protection facilities is about 1% , If it can occupy about 50% of the protection explosion-proof structure market with high-performance fiber-reinforced composite material, it will be able to enter the defense-related explosion-proof market of about 165 billion won

Fig. 1 Shape of composite panel composed of three layers
Fig. 2 Combining mechanism of protection / explosion-proof panel composed of layers
Fig. 3 Excellence of protection / explosion-proof performance by each layer

1. Improved resistance against external force and refractory by making the fiber produced in domestic is made into an outer skin type panel by appropriately blending tensile strength fiber and stretchable fiber and drawing compression molding

2. Adhesion and filler materials to integrate the behavior characteristics of the materials by maintaining a strong adhesion with the composite fiber shell by adding a lightweight nanocomposite material to the urethane-based adhesive agent compared to the existing fillers

Not applicable

Claims (2)

Adhesive panel sheathing that minimizes backside damage as a protection concept is made by using fiber blend (eg, aramid 6: polyester 4) that can ensure elongation of 3% or more with proper combination of tensile strength and elongation do. In order to integrate the panel sheathing layer, a nano-process zeolite material excellent in refractory and shock absorption is added to the urethane-based adhesive (adhesion strength: 3 MPa) to integrate the composite fiber sheath layer

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