Nanomaterial uses in construction, in coatings, in site remediation, and in invisible aircraft. The Israel-based YnetNews is reporting that an Israeli company called Nanoflight has successfully run a test on simulated missiles that were painted with nano-enabled coating and have shown that radar could not pick them up as missiles.
The nanocoating reaches its radar trap by absorbing the radio waves emitted by the radar and dispersing them as sufficient thermal energy so that when the radar receives the returned signal it is not regular enough to indicate an object. A spokesman for Nanoflight, Eli Shaldag, is quoted in the article stating that the company is in the second stage of its development process, after which it will be able to produce the coating in large quantities.
The Air Force Research Laboratory (AFRL) is the only Air Force organization dedicated entirely to leading the discovery, development and integration of combat technologies for our air, space and cyberspace forces. AFRL traces its roots to the vision of the first airpower leaders who understood science as the key to air supremacy. The passionate commitment of our people to realize this vision has helped to create the best aerial, space and cyberspace force in the world.
AFRL's mission is to lead the discovery, development and integration of affordable warfare technologies for United States aerospace forces. It is a full spectrum laboratory, responsible for conceiving, planning and executing the science and technology program of the Air Force. AFRL leads a global partnership of government, industry and academia in the discovery, development and delivery of a wide range of revolutionary technologies. The laboratory provides state-of-the-art warfare capabilities, keeping our air, space and cyber forces as the best in the world.
The laboratory employs approximately 5,400 government personnel, including about 1,300 military personnel and 4,100 civilians. He is responsible for the Air Force's science and technology budget of nearly $ 2 billion including basic research, applied research, advanced technology development and an additional $ 1.7 billion of AFRL clients.
AFRL fulfills its mission through nine directions of technology located in the United States, through the Office of Scientific Investigation of the Air Force, and with the support of a central personnel. The addresses are: Air Vehicle Direction, Direct Energy Direction, Human Efficiency Direction, Information Management, Materials and Manufacturing Management, Ammunition Direction, Propulsion Direction, Sensor Direction and Space Vehicles Management.
Use of nanomaterials in the construction, in coatings, in remediation of sites and in invisible planes. Certain nanomaterials can improve concrete strength, serve as self-cleaning and self-sanitizing coatings. These paving slabs are coated with titanium dioxide (TiO2). Titanium dioxide is a photocatalyst; It uses sunlight to accelerate a natural. An Israeli company has developed an aircraft paint that can make them invisible to radar.
Nanotechnology is considered as a key technology. Titanium dioxide is found in nature as minerals known as rutile, anatase and brookite, and also as two forms of high pressure, a monoclinic form of baddeleyite type and an orthorhombic-PbO2-like form, both found recently in The Ries crater in Bavaria. It is mainly obtained from ilmenite ore. . Approved by the Food and Drug Administration of the United States (FDA), it is considered a safe substance that is harmless to humans. The photocatalytic properties of titanium dioxide were discovered by Akira Fujishima in 1967 and published in 1972.
