Although free quarks don't typically exist, they can be liberated with a magnetic horizon and isolated with magetic fields. The typical shape of quark relationships is similar to water molecules except they have a +/- 2/3 charge and two +/- 1/3 charges. The 120 degree angle still applies. We know that we can link water molecules using hydrogen bonding, which creates surface resistence. The same thing occurs with protons and electrons, which combine to create neutrons.
For some reason modern physicists didn't notice that the weight of a neutron is exactly the sum of the weight of a proton and an electron. Plus it's kind of bizarre to believe that a particle has no charge or electrical properties. Even light behaves like a radio wave. The equivalent of hydrogen bonding inside neutrons is called the weak nuclear force.
Quarks can also be artifically arranged into long zig-zag-shaped, super strings or diamond-shaped patterns, which use the strong nuclear force to stick together instead of the weak nuclear force. This means that?we can make large pieces of material made of quarks that are stronger than anything in existence - unless there is something smaller than quarks that we could figure out how to engineer.
The sun doesn't utilize the strong nuclear force, so these materials would be nearly indestructable and so light that they would be almost weightless. They would also be impermiable to radiation and subatomic particles. The applications of super materials are significant ranging from body armor to the outer skin of space ships.