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Processor | AMD Ryzen 5 7600 |
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Memory | Kingston Fury Beast DDR5-5600 16GBx2 |
Video Card(s) | Gigabyte Gaming OC AMD Radeon RX 7800 XT 16GB |
Storage | TEAMGROUP T-Force Z440 2TB, SPower A60 2TB, SPower A55 2TB, Seagate 4TBx2, Samsung 870 2TB |
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Case | Montech Air X |
Audio Device(s) | Realtek onboard |
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Mouse | Logitech G304 |
Keyboard | Redragon K557 KAIA RGB Mechanical Keyboard |
Software | Windows 10 |
A metallic lattice of hair-thin pipes is now the lightest solid yet created — less dense than air, scientists revealed.
The strategy used to create these intricate structures could lead to revolutionary materials of extraordinary strength and lightness, including ones made of diamond, researchers added.
Ultra-lightweight materials such as foams are widely used in thermal insulation and to dampen sounds, vibrations and shocks. They can also serve as scaffolds for battery electrodes and catalytic systems.
The very lightest substances in the world until now, aerogels, have the ethereal nickname "frozen smoke.” They can reach densities of 1 milligram per cubic centimeter, making them less dense than air at room temperature and sea level.
The problem until now with low-density materials such as aerogels and metallic foams has been their random structures. For instance, aerogels are derived from gels whose liquid components were replaced with gas, leaving behind solid tangles of microscopic-bead necklaces. The chaotic architecture of these substances makes them much weaker than conventional forms of their parent material.
Now scientists have devised ultra-lightweight, low-density metallic lattices with orderly structures. These possess higher levels of stiffness, strength and conductivity of conventional forms of their parent materials, findings detailed in the Nov. 18 issue of the journal Science.
Full article here.
The strategy used to create these intricate structures could lead to revolutionary materials of extraordinary strength and lightness, including ones made of diamond, researchers added.
Ultra-lightweight materials such as foams are widely used in thermal insulation and to dampen sounds, vibrations and shocks. They can also serve as scaffolds for battery electrodes and catalytic systems.
The very lightest substances in the world until now, aerogels, have the ethereal nickname "frozen smoke.” They can reach densities of 1 milligram per cubic centimeter, making them less dense than air at room temperature and sea level.
The problem until now with low-density materials such as aerogels and metallic foams has been their random structures. For instance, aerogels are derived from gels whose liquid components were replaced with gas, leaving behind solid tangles of microscopic-bead necklaces. The chaotic architecture of these substances makes them much weaker than conventional forms of their parent material.
Now scientists have devised ultra-lightweight, low-density metallic lattices with orderly structures. These possess higher levels of stiffness, strength and conductivity of conventional forms of their parent materials, findings detailed in the Nov. 18 issue of the journal Science.
Full article here.