Bogota, Colombia-based Houd has developed a beautiful wood speaker that naturally amplifies sound from your smartphone or tablet without the need for additional electricity. The concave acoustic box is made from wood typically used to craft musical instruments, and it has a high density to better amplify sound waves through resonance. Simply rest your device atop the box and it will fill the room with the warm resonant sound quality of wood.
This Wood Species series of entries comes to us from guest writer Rob Wilkey, an Atlanta-based woodworker and industrial designer whose expertise is in small home goods, furniture, and large installations.
Over 100,000 different species of trees have been identified worldwide. Many are endangered, many are inaccessible, and many more aren't suitable for use as lumber. In fact, only a very small portion of these species is harvested and dried for use, but that 'small portion' still comprises over 500 species.
Woods we see in everyday American life—pine, oak, and maple—make up a small and comparatively uninteresting group of species. Around the globe, however, woods vary widely in appearance and physical properties. Colors can range from pale yellows and grays to vibrant hues of purple, red, and green, and from rich browns to pure, solid black.
Janka hardness is a good place to start when selecting a wood species. Janka is a measurement of the pounds of force required to embed a steel ball of a certain diameter into the surface of the wood. This gives a very good indication of how easily the wood will dent and scratch. Woods below 800lbf on the Janka scale can be dented by pressing on them with your fingernail, and as such shouldn't be used on surfaces that will experience a lot of physical contact. Conversely, woods above 2000lbf Janka are so hard that they can blunt tools and become very difficult to work with. Janka hardness is also useful in that it often coincides with structural stability. Woods that have a higher Janka hardness tend to be better load-bearing woods than those lower on the hardness scale.
Grain type is another important factor to consider. Straight grained wood is predictable and easy to cut and sand, whereas interlocked grain (wood that regularly changes its growth direction slightly, causing the layers of growth to interlock and overlap) can cause unwanted 'tearout' during cutting, planing, and/or sanding, as seen on the maple board on the far left below. This tearout occurred when I was trying to plane down the edge of the board—the blade caught a section of grain that was interlocked with the surrounding wood, tearing out the entire area instead of cutting straight across as I had intended.
Certain factors, such as weighty branches and bulbous deformities called burls, can also affect the natural grain pattern, resulting in an effect called figured wood. The way that light refracts off of the surface of figured wood creates an almost holographic effect that can take the appearance of rolling waves and swirling pits, as seen in the images below.
Porosity affects both the appearance and working properties of the wood. Ring-porous woods have larger pores at the edge of their growth rings, while diffuse-porous woods have the same size of pores throughout. This can affect the appearance of the wood, especially in pieces that are flatsawn, as shown below. Additionally, woods that are highly porous are harder to sand to a smooth finish, and tend to absorb more glue and finish than less porous woods.
Finally, color plays possibly the largest role in species selection. Wood can be stained and dyed to exhibit any range of colors, but arguably nothing beats the look of a nicely finished, unstained hardwood. Color can be consistent throughout the wood or vary between growth rings. It even change throughout an entire piece of lumber. The sapwood (area of wood just behind the bark) is usually lighter than the heartwood in the center of the tree. External factors can alter the color of the wood as well.
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