The effect of compound and metallic coatings of graphite, silver, tin oxidem and copper on the ability of a piezoelectric disc to boost its production of piezoelectricity after tensile failure
School Name
Spring Valley High School
Grade Level
10th Grade
Presentation Topic
Engineering
Presentation Type
Non-Mentored
Written Paper Award
2nd Place
Abstract
Piezoelectric devices can break from too much stress, causing tensile failure. When in complete tensile failure or fracture, piezoelectric devices need to be replaced. In order to try and fix this problem, the idea of using metallic or compound coatings over the areas of tensile failure was proposed. The four different materials used were silver, graphite, tin oxide, and copper. The hypothesis for this research project was that if graphite were used, it would be the best coating for the piezo discs because it contains graphene, which is very flexible and highly conductible. The piezo discs were first studied under a microscope, and each broken with a machinist's vice to simulate tensile failure. The electricity production was then measured with a multimeter at the setting of 200V DC. After the results were recorded, the coatings were made by mixing two grams of every material with acrylic paint. These paints were then spread on certain piezo discs, and then tested for piezoelectricity again. The differences between these two data sets were calculated to test if the coatings were effective. The results can be seen in Figures 6-8 in the Appendix. An ANOVA test (F(4.85)=1.27, p=0.29) was used to test the significance of the results, the p-value was 0.29, which was greater than the alpha value 0.05. This means the null hypothesis was not rejected, and it can be concluded that there were not any significant differences between the different groups of piezo discs.
Recommended Citation
Saravanapandian, Nithin, "The effect of compound and metallic coatings of graphite, silver, tin oxidem and copper on the ability of a piezoelectric disc to boost its production of piezoelectricity after tensile failure" (2017). South Carolina Junior Academy of Science. 119.
https://scholarexchange.furman.edu/scjas/2017/all/119
Location
Wall 225
Start Date
3-25-2017 9:00 AM
Presentation Format
Oral and Written
Group Project
No
The effect of compound and metallic coatings of graphite, silver, tin oxidem and copper on the ability of a piezoelectric disc to boost its production of piezoelectricity after tensile failure
Wall 225
Piezoelectric devices can break from too much stress, causing tensile failure. When in complete tensile failure or fracture, piezoelectric devices need to be replaced. In order to try and fix this problem, the idea of using metallic or compound coatings over the areas of tensile failure was proposed. The four different materials used were silver, graphite, tin oxide, and copper. The hypothesis for this research project was that if graphite were used, it would be the best coating for the piezo discs because it contains graphene, which is very flexible and highly conductible. The piezo discs were first studied under a microscope, and each broken with a machinist's vice to simulate tensile failure. The electricity production was then measured with a multimeter at the setting of 200V DC. After the results were recorded, the coatings were made by mixing two grams of every material with acrylic paint. These paints were then spread on certain piezo discs, and then tested for piezoelectricity again. The differences between these two data sets were calculated to test if the coatings were effective. The results can be seen in Figures 6-8 in the Appendix. An ANOVA test (F(4.85)=1.27, p=0.29) was used to test the significance of the results, the p-value was 0.29, which was greater than the alpha value 0.05. This means the null hypothesis was not rejected, and it can be concluded that there were not any significant differences between the different groups of piezo discs.
