|
Since the 90s of the 20th century, materials science and technology advancing at an alarming, materials science and life science, information science, environmental science, constitute the leading edge of contemporary science and technology. 21st century, materials research and development of cutting-edge science and technology are: Microelectronics Materials: large-diameter 300mm silicon crystal and sheet technology for silicon deep sub-micron process technology of large diameter 200mm wafer outer edge, 150mm and 100mm of InP, GaAs chips and to follow their base , semiconductor superlattice, quantum well heterostructure material preparation technologies, GeSi alloys and wide band gap semiconductor material preparation and application. New Optoelectronic Materials: large diameter, high optical quality of intraocular lens technology and the preparation of organic and inorganic nonlinear optical crystals to explore the new, high-power semiconductor laser optical modules and solid-state tunable laser technology, organic, inorganic ultra-high brightness red, green, blue-color material and application technology, new infrared, blue, violet semiconductor laser materials and new optical detection and optical storage materials and application technology. Rare Earth Functional Materials: Preparation of high purity rare earth materials, high energy product rare earth permanent magnet materials of mass production technology, high-performance rare-earth hydrogen storage materials and related technology, high performance rare earth catalysts Preparation and Application. Biomedical Materials: high-reliability implanted in the human body's bio-active material core technology, bio-compatible material preparation technologies, alternative materials such as tissues and organs, artificial blood, artificial leather and the dialysis membrane technology, and biomedical properties of new materials, product quality online testing and evaluation techniques. Advanced composite materials: low-cost manufacturing techniques of composite materials, composite materials, interface control and optimization techniques, different scales and heterogeneous structure of composite technology and composites is high performance, low-cost technology. New Metal Materials: Transportation of light and high strength materials, energy and power with high-temperature corrosion resistant material, the new ordered intermetallics and toughening the brittle control technology and high-reliability technology of preparation. Advanced ceramic materials: a new functional ceramics Preparation of information technology and multi-functional and system integration technology, high-performance ceramic films, heterogeneous thin films, integrated with micro-processing technology, structural ceramics and composite materials, reinforcing, toughening technology advanced ceramics, low-cost, high reliability, batch preparation technology Since the 90s of the 20th century, materials science and technology advancing at an alarming, materials science and life science, information science, environmental science, constitute the leading edge of contemporary science and technology. 21st century, materials research and development of cutting-edge science and technology are: Microelectronics Materials: large-diameter 300mm silicon crystal and sheet technology for silicon deep sub-micron process technology of large diameter 200mm wafer outer edge, 150mm and 100mm of InP, GaAs chips and to follow their base , semiconductor superlattice, quantum well heterostructure material preparation technologies, GeSi alloys and wide band gap semiconductor material preparation and application. New Optoelectronic Materials: large diameter, high optical quality of intraocular lens technology and the preparation of organic and inorganic nonlinear optical crystals to explore the new, high-power semiconductor laser optical modules and solid-state tunable laser technology, organic, inorganic ultra-high brightness red, green, blue-color material and application technology, new infrared, blue, violet semiconductor laser materials and new optical detection and optical storage materials and application technology. Rare Earth Functional Materials: Preparation of high purity rare earth materials, high energy product rare earth permanent magnet materials of mass production technology, high-performance rare-earth hydrogen storage materials and related technology, high performance rare earth catalysts Preparation and Application. Biomedical Materials: high-reliability implanted in the human body's bio-active material core technology, bio-compatible materials, preparation techniques, such as tissue and organ substitutes, artificial blood, artificial leather and the dialysis membrane technology, and biomedical properties of new materials, product quality Online testing and evaluation techniques. Advanced composite materials: low-cost manufacturing technologies of composite materials, composite materials, interface control and optimization techniques, different scales and heterogeneous structure of composite technology and composites is high performance, low-cost technology. New Metal Materials: Transportation of light and high strength materials, energy and power with high-temperature corrosion resistant material, the new ordered intermetallics and toughening the brittle control technology and high-reliability technology of preparation. Advanced ceramic materials: a new functional ceramics Preparation of information technology and multi-functional and system integration technology, high-performance ceramic films, heterogeneous thin films, integrated with micro-processing technology, structural ceramics and composite materials, reinforcing, toughening technology advanced ceramics, low-cost, high reliability, batch preparation technology High-temperature superconducting materials: high-temperature superconducting thin films and heterostructures Films, integration and micro-processing technology, can be prepared for practical high-temperature superconducting wire technology, high-temperature superconductor materials, quasi-crystal materials, mass production techniques and texture. Eco-materials: development in harmony with the environment, materials and design and evaluation techniques, such as Totally Degradable agricultural plastic film preparation, materials, life extension, regeneration and comprehensive utilization of new technologies, decreased production of resources and energy consumption of new technologies. Nano-materials: nano-materials are mainly preparation and application key technology, solid-state quantum device fabrication and nano-machining and assembly technology. Energy Materials: new and efficient energy conversion materials, new energy storage materials, energy technology key to new materials with the preparation and application of technology. Stealth Materials: electromagnetic shielding or electromagnetic wave absorbing materials, anti-information leakage electric, magnetic shielding material preparation and application. Advanced polymer materials: high-performance engineering plastics and polymer alloys, high temperature polymer matrix, high strength organic fiber and organic functional materials, such as light emitting plastics and organic optoelectronic materials. Materials, design, preparation and evaluation of technologies: Intelligent Materials Synthesis and preparation techniques, surface modification of low-cost and mass production techniques of ways, in situ composite technology, bionic technology, atomic scale, design and arrangement of technology, material microstructure modeling technology, intelligent control and dynamic real-time monitoring and analysis techniques, different levels of material design, performance prediction and evaluation of characterization of new technologies. We are high quality suppliers, our products such as China control duplicator , car key duplicate for oversee buyer. To know more, please visits duplicate car keys.
Related Articles -
China control duplicator, car key duplicate,
|
