We use patented technology to penetrate and stick directly.
The surface of the board is directly laminated with melamine paper, without any interlayer in the middle, which improves the fire resistance level. It has no formaldehyde, no phenolic glue, high bonding strength, and good fire resistance. , Is a national A-level (national standard) fireproof board, the flame lasts for zero burning time, 800 ℃ does not burn, 1200 ℃ no flame, in line with the national A-level fire protection standards, the fire resistance limit reaches more than 4 hours, can be absorbed in the process of burning A large amount of heat energy prevents the fire from spreading and delays the increase of the surrounding temperature.
Our Melamine surface decorative magnesium oxide board can be boiled for 4 hours without the layers unfloding. In dry, cold and sloping weather, the performance is always stable, unaffected by condensed water droplets and vertical air, even if it is soaked in water for several days, it can be used normally after being recovered from naturally dried. It will not be deformed and affect the strength,and there're no No water droplets,no condensation phenomenons.
Decorative Material,Partition Board Wall,Eps Sip Sandwich Panel,Fireproof Decorative Panel Shangdong Lanchuang Economy and Trade Co.,Ltd. , https://www.mgoboardsdlceat.com
Microelectronic Materials: Large Diameter 300mm Silicon Single Crystal and Sheet Technology, Large Diameter 200mm Wafer Edge Technology for Silicon Deep Submicron Processes, 150mm GaAs and 100mm InP Wafers and Their III V Family Semiconductor superlattice, quantum well heterostructure material preparation technology, GeSi alloy and wide band gap semiconductor material preparation and application technology.
New optoelectronic materials: large diameter, high optical quality artificial crystal preparation technology and organic and inorganic new nonlinear optical crystal exploration, high power semiconductor laser fiber module and all solid state tunable laser technology, organic and inorganic ultra high brightness red, green and blue Three primary color materials and application technology, new infrared, blue, and violet semiconductor laser materials, as well as new light detection and optical storage materials and application technologies.
Rare earth functional materials: preparation technology of high-purity rare earth materials, large-scale production technology of ultra-high magnetic energy rare earth permanent magnet materials, high-performance rare earth hydrogen storage materials and related technologies, preparation and application of high-performance rare earth catalyst materials.
Biomedical materials: key technologies for bioactive material synthesis in highly reliable implants, biocompatible material preparation techniques such as tissue and organ replacement materials, artificial blood, artificial skin and dialysis membrane technology, and quality properties of biomedical new materials. Online detection and evaluation techniques.
Advanced composite materials: cost-manufacturing technology for composite materials, interface control and optimization technology for composite materials, new composite technology for heterogeneous materials with different scales and different structures, and high-performance, low-cost technology for composite reinforcement materials.
New metal materials: lightweight high-strength materials for transportation, high-temperature corrosion-resistant materials for energy power, brittleness control and toughening technology of new ordered intermetallic compounds, and high-reliability production and preparation technology.
Advanced ceramic materials: new preparation technology and multi-functionalization and system integration technology of information functional ceramics, preparation, integration and micro-machining technology of high-performance ceramic film, heterogeneous film, reinforcement and toughening technology of structural ceramics and composite materials, Low cost, high reliability, batch preparation technology for advanced ceramics.
High-temperature superconducting materials: preparation, integration and micro-machining technology of high-temperature superconducting thin films and heterostructure thin films, practical high-temperature superconducting wire preparation technology, high-temperature superconductor materials quasi-single crystal and texture material mass production technology.
Eco-environmental materials: develop materials that are in harmony with the environment and their design and evaluation techniques, such as fully degradable agricultural plastic film preparation technology, new materials for life extension, regeneration and comprehensive utilization, and new technologies for reducing material production and energy consumption.
Nanomaterials: Mainly the key technologies for the preparation and application of nanomaterials, solid state quantum device fabrication and nanofabrication and assembly technology.
Energy materials: new high-efficiency energy conversion materials, new energy storage materials, and key new materials preparation and application technologies for energy technology.
Stealth materials: electromagnetic wave shielding or electromagnetic wave absorbing materials, anti-information leakage, magnetic wave shielding materials preparation and application technology.
Advanced polymer materials: high-performance engineering plastics and polymer alloys, high-temperature resin matrix, ultra-high-strength organic fibers and organic functional materials, such as luminescent plastics, organic optoelectronic materials.
Material design, preparation and evaluation techniques: material intelligent synthesis and preparation technology, low-cost approach and mass production technology of material surface modification technology, in-situ composite technology, biomimetic technology, atomic scale design and layout technology, materials Micro-structured modeling technology, intelligent control and dynamic real-time monitoring and analysis technology, different levels of material design, performance prediction and evaluation and characterization of new technologies.
Fire-resistant Feature:
Waterproof Feature:
Several technological frontiers in the development of new materials
Since the 1990s, the development of materials science and technology has been extremely rapid. Materials science and life sciences, information science, and environmental science have formed the forefront of contemporary science and technology. Looking forward to the 21st century, the frontiers of materials science and technology research and development are: