mohamed seif, ph.d., p.e. - society of reliability...
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RELIABILITY AND SURVIVABILITY ANALYSIS OF 3D PRINTED FDM PARTS
Mohamed Seif, Ph.D., P.E.
Mechanical Engineering DepartmentAlabama A&M University
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Objectives
Introduce AM to the US Army AMRDEC’s S&T program entitled “PRIntable Materials with embedded Electronics (PRIME2)
Investigate state-of-the-art 3D fabrication capabilities for electronics
Reduce weaponry size/weight/cost and increase efficiency Further investigate 3D Printing of entire PCB (antenna,
RF structures, connectors)
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Test Specimens and Methods
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Test MaterialsThe materials that have been used in this study are: ABS: Acrylonitrile Butadiene StyreneHIPS: High Impact Poly-StyrenePLA: Poly-Lactic Acid
Two different manufacturing processes: 1. 3D Printing process (FDM) using the recommendation of the 3D
Printer manufacturer.2. Conventional Extrusion/Forming Sheet process: The specimens are
cut from sheets of plastics, which are prepared using ASTM D1892 standard
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Additive Manufacturing Processes
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Additive Manufacturing Technique and Basic Elements
Table 4 Additive Manufacturing Technique and Basic Elements
Am Process Monitored Attribute
Laser Power/ Melt Pool Nozzle Jet Status Chamber Chamber Platform HeadDistribution Temperature Temperature Temperature Vacuum Position Position
Laser Polymerization Process X X X X XLaser Melting Process X X X X X X
X X X X XMaterial Jetting Processes X X X X
X X XAdhesive Processes
Extrusion Process
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Modelling Approach - Extrusion processes (FDM)
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The Extrusion Process
Sectional view of melt flow channels showing five zones
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The Extrusion Processes
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Pressure Drop in Every Zone
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Pressure Drop in Every Zone
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3D Printing Conditions of the Filaments
Variables ABSExtrusion Temperature 240 ͦ CLayer Thickness 0.05mm – 0.50mmBed Temperature 110 ᵒ CChamber Temperature N/AFilament Size 3mmNozzle Diameter 0.50mmInfill 100%
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Typical In-Plane Shear Test
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Typical V-Notch Shear Test
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In-Plane Shear Test Results(3-D Printer)
Statistical Values
ABS – 3D Printer HIPS – 3D Printer PLA – 3D Printer
Prop. Limit
In-Plane Shear
Prop. Limit
In-Plane Shear
Prop. Limit
In-Plane Shear
Average 20.2 MPa 32.1 MPa 19.9 MPa 30.4 MPa 29.95 MPa 44.4 MPa
Standard Deviation
0.455 MPa
1.366 MPa
0.297 MPa 0.649 MPa 1.155 MPa 1.354 MPa
Coefficient of Variance
2.25% 4.25 % 1.50 % 2.13 % 3.86 % 3.05 %
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V-Notch Shear Test Results(3-D Printer)
Statistical Values
ABS – 3D Printer HIPS – 3D Printer PLA – 3D Printer
Prop. Limit
In-Plane Shear
Prop. Limit In-Plane Shear
Prop. Limit In-Plane Shear
Average 21.5 MPa 30.8 MPa 20.3 MPa 25.1 MPa 34.98 MPa 46.9 MPa
Standard Deviation
0.26 MPa 0.27 MPa 0.65 MPa 0.56 MPa 1.65 MPa 0.59 MPa
Coefficient of Variance
1.2% 0.878 % 3.22 % 2.25 % 4.71 % 1.24 %
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Typical In-Plane Shear Test3D Printing
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Typical V-Notch Shear Test
3D Printing
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ABS sheets VS ABS 3D Printed(Acrylonitrile Butadiene Styrene – ABS)
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HIPS sheets VS HIPS 3D Printed(High Impact Poly-Styrene, i.e., HIPS)
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Effect of Filament Orientation
0
5
10
15
20
25
30
35
0 15 30 45 60 75 90
Shear S
tress, M
Pa
Filament Angle, Degree
In‐Plane Shear
Max. Shear
Prop. Limit Shear
0
5
10
15
20
25
30
35
0 15 30 45 60 75 90
Shear S
tress, M
Pa
Filament Angle, Degree
V‐Notch Shear
Max. Shear
Prop. Limit Shear
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Failure and Quality Assessment Analysis four distributions have been examinedIn this work, four distributions have been examined:
1. Weibull Distribution2. Lognormal Distribution3. Exponential Distribution4. Normal Distribution
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Probability Plot for Failure Stresses for In-Plane Shear Data
four distributions have been examined
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Probability Plot for Failure Stresses for V-Notch Shear Data
four distributions have been examined
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Distribution Plot for Failure Stresses for In-Plane Shear Data
four distributions have been examined
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Distribution Plot of Failure Stresses for V-Notch (out-of-plane) Shear Data
four distributions have been examined
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Survival Probabilities at Different In-Plane Shear Stress Levels
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Survival Probabilities at Different Out-of-Plane Shear Stress Levels
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Comparison between 3D Printing and Commercial Manufacturing Process
a. The Mann-Whitney Test
In-Plane Out-of-Plane
a. The Mann-Whitney Test
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Two-Sample Kolmogorov-Smirnov Normality Test
b. Two sample Kolmogorov-Smirnov normality test
In-Plane Out-of-Plane
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Conclusions The COV never exceeds 5%.
For In-Plane Shear, the ABS 3D specimens have about 7.54% higher stresses while the HIPS 3D specimens have about 18.6% increase in their shear stresses.
For Cross-Sectional Shear, the ABS 3D specimens have about 23.5% higher proportional stresses. For HIPS filaments, HIPS 3D specimens have about 73.5 % increase in proportional limits.
This increase would be attributed to the thermal cycling of the 3D printer process that would increase the material hardness and hence the Shear Stress.
This study shows that more enhancement could be achieved by optimizing the effect of the different variables that affect the 3D printing process.
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Acknowledgements
This work was supported by US Army AMRDEC WDI Contract # - W31P4Q-09-A-0021 Task Order # - 0009 Project - PRIME2
Special thanks to Janice C. Booth, Aviation and Missile Research, Development and Engineering Center (AMRDEC) - U.S. Army Research, Development, and Engineering Command
Special thanks to EngeniusMicro for providing the test specimens
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Thank You
Q & A