Composite Guitar
Document Type
Creative works or constructive object presentation
Campus where you would like to present
Ellensburg
Event Website
https://digitalcommons.cwu.edu/source
Start Date
18-5-2020
Abstract
Traditional wood-bodied products such as boats, hockey sticks, and guitars can be easily chipped or cracked if not properly taken care of. The wood can absorb moisture and deteriorate over time. If that wood is replaced with composite materials, those products can become stronger, more lightweight, and resistant to temperature and corrosion. Two of the most popular composite materials are carbon fiber and fiberglass. Because these composite materials have such a high strength, the core of a guitar body can also be replaced with a lighter material such as Styrofoam which makes for a lighter and more durable guitar. The carbon fiber can be molded to the guitar using either a wet layup or a vacuum bagging technique. Both of these have their own advantages and disadvantages. The vacuum bagging process allows the carbon fiber to mold more closely to the foam core but was found to have problems around the corners and edges of the guitar. The wet layup was able to form more closely around the corners but had small bubbles or imperfections around certain areas. Both processes had roughly the same cure time of about 6 hours. The initial testing was done on a separate piece of foam that was cut out and carbon fiber applied. The calculated load of the string was around 11 psi and the test piece was able to withstand well above that amount.
Recommended Citation
Rollins, Ryn, "Composite Guitar" (2020). Symposium Of University Research and Creative Expression (SOURCE). 46.
https://digitalcommons.cwu.edu/source/2020/CEPS/46
Department/Program
Engineering, Technologies, Safety & Construction
Additional Mentoring Department
https://cwu.studentopportunitycenter.com/2020/04/composite-guitar/
Composite Guitar
Ellensburg
Traditional wood-bodied products such as boats, hockey sticks, and guitars can be easily chipped or cracked if not properly taken care of. The wood can absorb moisture and deteriorate over time. If that wood is replaced with composite materials, those products can become stronger, more lightweight, and resistant to temperature and corrosion. Two of the most popular composite materials are carbon fiber and fiberglass. Because these composite materials have such a high strength, the core of a guitar body can also be replaced with a lighter material such as Styrofoam which makes for a lighter and more durable guitar. The carbon fiber can be molded to the guitar using either a wet layup or a vacuum bagging technique. Both of these have their own advantages and disadvantages. The vacuum bagging process allows the carbon fiber to mold more closely to the foam core but was found to have problems around the corners and edges of the guitar. The wet layup was able to form more closely around the corners but had small bubbles or imperfections around certain areas. Both processes had roughly the same cure time of about 6 hours. The initial testing was done on a separate piece of foam that was cut out and carbon fiber applied. The calculated load of the string was around 11 psi and the test piece was able to withstand well above that amount.
https://digitalcommons.cwu.edu/source/2020/CEPS/46
Faculty Mentor(s)
Craig Johnson