| Mother of pearl | |
| Teak | |
| Earthen | |
| Shell | |
| Slate | |
| Hide | |
 |
Aluminium |
| Bamboo | |
| Ceramic | |
| Olive | |
| Fiberglass | |
| Abaca | |
| Rattan | |
| Walnut | |
| Brass | |
| Bandala | |
| White glass paste | |
| Leather | |
| Nito | |
| Coconut | |
| Stone | |
| Marble | |
| Copper | |
| Termites' nests | |
| Fine rattan | |
| Raffia | |
| Arurog | |
| Mango | |
| Sweet Liana | |
| Linen | |
| Sugar cane | |
| Water hyacinth | |
| Lampakanay | |
| Water Liana | |
| Banana | |
ALLUMINIUM
Chemical symbol Al. This element was first isolated back in 1825. Few people know that aluminium is one of the most widespread elements found in nature after oxygen and silicon: in fact it forms 8% of the earth’s crust. It has a silvery white colour and it is ductile, malleable and resistant to atmospheric agents.
It is the main component for those light alloys that find an ever-increasing use in advanced technologies.
As you can see, thanks to its ductility it can be modeled into some of the most interesting shapes.
Chemical symbol Al. This element was first isolated back in 1825. Few people know that aluminium is one of the most widespread elements found in nature after oxygen and silicon: in fact it forms 8% of the earth’s crust. It has a silvery white colour and it is ductile, malleable and resistant to atmospheric agents.
It is the main component for those light alloys that find an ever-increasing use in advanced technologies.
As you can see, thanks to its ductility it can be modeled into some of the most interesting shapes.