Nanoindenter Force Converting Stage EML 4905 Senior Design FIU Department of Mechanical Engineering...
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- Nanoindenter Force Converting Stage EML 4905 Senior Design FIU
Department of Mechanical Engineering Miami, Florida Team 15 Erick
Camacho James Caraballo Patricia Wong Advisor: Dr. Benjamin
Boesl
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- Outline 1. Problem Statement 2. Motivation and Goals Literature
Survey Survey of Related Standards Alternate Designs Final
Conceptual Design Structural Design and Simulation Plan 3.
Prototype Design, Construction & Experimentation Plan Elements
of Global Design Integrated in the Project Design Experience 4.
Environmental Issues 5. Economic Aspects of the Designed Product 6.
Global Awareness, Global Perspective and Global Engagement 7. Life
- Long Learning Gantt Chart (for two semesters) and Division of
Responsibilities Conclusions and Future Work
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- Nanoindenter Material testing Single compressive force onto a
material sample Nanomaterials Nanowires Biomaterials
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- Problem Statement Convert vertical compressive force to tensile
force
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- Motivation & Goals Increase the capabilities of material
testing with nanoindenter. Testing with optical microscope Does not
require high vacuum conditions.
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- Motivation & Goals Explore applications of available 3D
printing capabilities.
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- Literature Survey Mechanical Engineering and Materials Science
Department in Rice University Nanofabricated 3 m thick polysilicon
layer 10 m
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- Literature Survey Mechanical Engineering and Materials Science
Department in Rice University F tensile = 0.67 F compressive 10
m
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- 1. Knoop and Vickers Hardness of Materials ASTM E384 ASTM E2546
2. Standard Practice for Indentation Testing ASTM E2546 3. Standard
Guide for Printing Inks ASTM D5010 ASTM D7188 Standards
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- Alternate Designs
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- Final Conceptual Design Flex360 design printed using NinjaFlex
3D Filament
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- Final Conceptual Design
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- Structural Design and Simulation Plan Stress analysis with 0.01
N compressive load 0.19 GPA Max stress
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- Structural Design and Simulation Plan Displacement analysis
with 0.01 N 0.05 mm original separation
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- Structural Design and Simulation Plan 0.343 mm total elongation
on testing site 686% maximum strain on testing material
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- Structural Design and Simulation Plan Calibration using larger
sample of known Elastic modulus Cross sectional area Original
Length Material of known E
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- Structural Design and Simulation Plan Calibration using larger
sample of known Material of known E
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- Prototype Construction & Testing NinjaFlex 3D Printing
Filament MakerBot Replicator 2X Approximately 15 minute build
time
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- Prototype Construction & Testing Nanoindenter test to
compare with design analysis Design scale up Micro-indenter
test
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- Prototype Construction & Testing Nanoindenter test to
compare with design analysis Design scale up Micro-indenter
test
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- Prototype Construction & Testing F t = 0.13 F c F t = 0.67
F c 10 m
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- Design is a plan for arranging elements in such a way as best
to accomplish a particular purpose - Charles Eames Design
Experience 3D Printing experience o Tolerances o Design vs.
Manufacturing
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- Environmental Issues No machinery required with 3D printing
Small impact with discarded designs due to small size Recyclable
material
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- Economic Aspects and Impact Increase in testing expands the
application of materials Industries advance
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- Global Awareness World-wide pursuit of increasing testing
results Global research Improving technology for the world
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- Life Long Learning Professional collaboration with engineering
peers Advisor-lead research as experience towards grad school and
professional work Time Management Use of Standards
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- 2014 2015 Timeline
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- Conclusion & Future Work New design o simple concept o high
manufacturability o inexpensive - does not have to be reused o may
be adjusted for designs using other materials
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- Conclusion & Future Work Scale down design
Nanomanufacturing process Material Testing
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- Special Thanks to Advisor : Dr. Benjamin Boesl Dr. Sabri
Tosunoglu Mr. Micheal Enriquez Mr. Sadegh Behdad
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- Questions?