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The material offers unique properties. Macroscale ceramics are brittle and rigid and break upon impact. However, Ceramic nanoparticles take on a larger variety of functions,  including dielectric , ferroelectric , piezoelectric , pyroelectric , ferromagnetic , magnetoresistive , superconductive and electro-optical. Ceramic nanoparticle were discovered in the early s. They were formed using a process called sol-gel which mixes nanoparticles within a solution and gel to form the nanoparticle.
Later methods involved sintering pressure and heat. The material is so small that it has basically no flaws. Larger scale materials have flaws that render them brittle. In researchers announced a lasering process involving polymers and ceramic particles to form a nanotruss. This structure was able to recover its original form after repeated crushing.
Ceramic nanoparticles have been used as drug delivery mechanism in several diseases including bacterial infections, glaucoma, and most commonly, chemotherapy deliver in cancer. Ceramic nanoparticle have unique properties because of their size and molecular structure. These properties are often shown in terms of various electrical and magnetic physics phenomenons which include:.
The fractal nanotruss is a nanostructure architecture  made of alumina , or aluminum oxide. Its maximum compression is about 1 micron from a thickness of 50 nanometers. After its compression, it can revert to its original shape without any structural damage. One process for making nanoceramics varies is the sol-gel process , also known as chemical solution deposition. This involves a chemical solution, or the sol, made of nanoparticles in liquid phase and a precursor , usually a gel or polymer, made of molecules immersed in a solvent.
The sol and gel are mixed to produce an oxide material which are generally a type of ceramic. The excess products a liquid solvent are evaporated. The particles desires are then heated in a process called densification to produce a solid product. This process uses a laser technique called two-photon lithography to etch out a polymer into a three-dimensional structure.
The laser hardens the spots that it touches and leaves the rest unhardened. The unhardened material is then dissolved to produce a "shell". The shell is then coated with ceramic, metals, metallic glass, etc. In the finished state, the nanotruss  of ceramic can be flattened and revert to its original state. In another approach sintering was used to consolidate nanoceramic powders using high temperatures. This resulted in a rough material that damages the properties of ceramics and requires more time to obtain an end product.
This technique also limits the possible final geometries. Microwave sintering was developed to overcome such problems. Radiation is produced from a magnetron , which produces electromagnetic waves to vibrate and heat the powder. This method allows for heat to be instantly transferred across the entire volume of material instead of from the outside in.
The nanopowder is placed in an insulation box composed of low insulation boards to allow the microwaves to pass through it. The box increases temperature to aid absorption. Inside the boxes are suspectors that absorb microwaves at room temperature to initialize the sintering process. In the early s, the first nanoparticles, specifically nanoceramics were formed, using sol-gel. This process was replaced by sintering in the early s and then by microwave sintering.
None of these techniques proved suitable for large scale production. In , researchers tried to reverse engineer the microstructure of seashells to strengthen ceramics. Product Types. Ready to Ship. Suggestions India. South Korea. United States. South Africa. Hong Kong S. Taiwan, China. Main Raw Material. Design Style. Nano Ceramic Coating products available.
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