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The SNL/MSU/DOE FatigueThe SNL/MSU/DOE Fatigue Program: Recent Results
John MandellJohn MandellMontana State University
2010 Sandia Blade Workshop2010 Sandia Blade WorkshopJuly 20-22, 2010
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Thanks• To Sandia/DOE for support since 1989• To our many partners in the industryTo our many partners in the industry
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Research GroupPI: John Mandell; Current Group:• PI: John Mandell; Current Group: – CoPI Research Engineer: Daniel Samborsky
• Testing Materials Fabrication• Testing, Materials Fabrication
– Post Doc: Aaron Sears• FEA, Adhesives,
– Grad Student: Tiok Agastra• Processing, Complex Structure Coupon Testing and FEA
– Undergraduate Assistants: Patrick Flaherty and David Buswell
• Sandia PI’s: Tom Ashwill, Josh Paquette
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• Standard laminates representing spars, skins Fatigue Topics
p g p ,and webs
• Adhesive joints • Core/sandwich areas • Damage growth at flaws• Ply delamination at details like ply drops and
joints, and near adhesive joints• Resins fibers fabrics adhesives cores• Resins, fibers, fabrics, adhesives, cores• Processing effects• Environment• Environment• Loading conditions/
spectrum loadingspectrum loadingSandwich Panel
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Public DatabaseSNL/MSU/DOE F ti D t b• SNL/MSU/DOE Fatigue Database(SNL Website or MSU program website: www.coe.montana.eduwebsite: www.coe.montana.edu/composites/)– Over 190 Materials – 11,500+ test results– Updates each March
T d l d i bli ti– Trends analyzed in publications and contractor reports on website; Draft of current contractor report
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More DetailsC t t t d bli tiContractor reports and publications on
www.coe.montana.edu/composites/; additional information including resins, adhesives, fabrics, etc.
Contact: [email protected].
C t t R t d R t P W b itContractor Report and Recent Papers on Website:1. 2010 Sandia Contractor Report (Draft), Mandell, et al.2. 2010 Sandia Blade Workshop Presentation, Mandell.3 Second International Blade Conference 2010 Essen Germany Mandell and3. Second International Blade Conference, 2010, Essen, Germany, Mandell and Samborsky, paper and presentation, program overview.4. SAMPE 2010, Seattle, paper 398, Agastra and Mandell, Complex Structured Coupons.5 AIAA SDM 2010 Orlando paper AIAA-2010-2820 Samborsky et al Fatigue of5. AIAA SDM 2010, Orlando, paper AIAA 2010 2820, Samborsky, et al, Fatigue of Laminates.6. AIAA SDM 2010, Orlando, paper AIAA-2010-2821, Sears, et al, Adhesives.7. ACS 2010, Cocoa Beach, Selection of Blade Materials, Mandell, Presentation.
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Presentation Topics• Summary of recent results:
1. Standard laminate fatigue:gfabric and resin effects.
2 Ply delamination2. Ply delamination, complex structured coupons with ply drops (mini sub-with ply drops (mini sub-structures).
3 Blade adhesives3. Blade adhesives.
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Tensile Fatigue R = 0 1:Standard Laminate Fatigue
Tensile Fatigue, R = 0.1:1. Glass fiber laminates most sensitive to tensile part of fatigue cycles2. “Clean” failure modes for materials comparisons
R = Min Stress/Max Stress
p
Ref. 1
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MSU resin infusion process with hard mold on one side(panels also supplied by industry)
Ref. 1
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Vectorply E‐LT 5500 Fabric, Front and Back Views(MSU F b i D 1875 )(MSU Fabric D, 1875 gsm)
Ref. 5
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PPG-Devold L1200/G50-E07 (MSU Fabric H, 1261 gsm)
B kFront Back
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Strain-cycles trends for eight MD laminates, UD fabrics1200-2400 gsm, Hybon 2026 sized strands, filament diameters up to 23 microns Hexion RIMR 135 epoxy R = 0 1diameters up to 23 microns, Hexion RIMR 135 epoxy, R = 0.1
Studies involving systematic fabric variation with Devold and OCV in progress
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Data Representation
Milli C lMillion Cycle Strain Parameter,Power Law Exponent,Linear Log PlotsLinear-Log Plots,Polyester (UP) vsEpoxy (EP)
Multidirectional Laminates;TT: Database Laminate Designation;
Note: Strains shown on figures are Initial Strainsfrom extensometer in
Designation;[±45/0/±45/0/±45]
the first few fatigue cycles
Ref. 1, 5
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Resin Comparison, Same Fabrics
Vinyl esters: intermediatepDCPD (Materia): similar to epoxy
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UP and EP resins with and w/out 90-strands removed in gage section before infusion, UD laminates
Significant effect only for UP resin laminates
epoxy
polyester
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Typical Infused Laminate Property Ratios Polyester (UP) to Epoxy (EP)*
Property Ratio UP/EPAxial Tensile Modulus (UD) 1.0Axial Tensile Modulus (MD) 1 0Axial Tensile Modulus (MD) 1.0Axial (UD) Static Tensile Strength 0.90Axial (MD) Static Tensile Strength 0.95T (UD) St ti T il C ki 0 42Transverse (UD) Static Tensile Cracking Strain
0.42
Axial (UD) 106 Cycle Strain (R = 0.1) 0.516Axial (MD) 106 Cycle Strain (R = 0.1) 0.65
Axial (MD) 106 Cycle Stress (R = 0.1) 0.61Axial (Biax) 106 Cycle strain (R = 0.1) 0.91Interlaminar GIc (0-0 interface) 0.55Interlaminar GIIc (0-0 interface) 0.48Complex Coupon Ply Drop Delamination 0 74Complex Coupon Ply Drop Delamination, Threshold Fatigue Strain (R = -1)
0.74
*Vf = 0.5 to 0.6, UD Fabrics D and H, Biax Fabrics M and P
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Complex Coupons With Ply Drops
Thickness TaperingThickness Tapering
Ref. 4
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Delamination Testingg
Mixed Mode Delamination Testing, Different Resins
Ref. 1, 5
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Complex Structured Coupons with Ply Drops Resin InfusionDrops, Resin Infusion
Purpose: Mini-substructure test. Simplified, less costly p , yapproach to substructure testing. Efficient comparisons of resins, fabrics, geometric details in structural context..coupons represent more realistic internal (infused) blade structural detail areas thanstructural detail areas than standard laminate tests
Ref. 1, 4
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Complex Structured Coupon with Ply Drops(See 2009 SDM, AIAA-2009-2411; and 2010 SAMPE paper 398)
Damage Components Alternate Geometries
Ref. 1, 4
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Damage Growth Curves
Static Fatigue, R = 0.1
Damage Growth with Different Resins Correlates with Interlaminar GIc, GIIc
Simulation
Ic, IIc
Ref. 4
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Effect of Number of Plies DroppedEffect of Number of Plies Dropped
F iSt ti• 1 PD = 1.3 mm
Fatigue(R=0.1, Pmax=55.6 kN)
Static
• 2 PD = 2.6 mm• 4 PD = 5.2 mm Ref. 1, 4
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THRESHOLDSNear threshold damage growthNear-threshold damage growth results for three resins:epoxy (EP-1), polyester (UP-1) and pDCPD; R = -1.
Near threshold results (5-mm delamination length L1 in 106 cycles), R = -1, t li d d t iti
Resin Max. Force, kN, and thin side average strain (%)
Force Change From Epoxy Observed Damage
E EP 1 19 (0 18%) L1 L2 k l d
two plies dropped at one position.
Epoxy EP-1 19 (0.18%) ___ L1, L2, crack at ply ends
Polyester UP-1 14 (0.13%) -26% L1, L2, biax cracking, crack at ply ends
pDCPD 22 (0 21 %) +16% L1 crack at ply endspDCPD 22 (0.21 %) +16% L1, crack at ply ends
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BladeAdhesivesAdhesives
• Initial Test Parameters– Characterize Nominally Good Quality Joints
(Most Contain Significant Porosity)– Range of Uniaxial Loading Conditions (R-
values)Range of Crack Mode Mi it (G /G )– Range of Crack Mode Mixity (GI/GII)
– Failure Modes; Crack initiation and Growth LocationLocation
– Strength-lifetime or Fracture Mechanics-da/dN
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Strength-Lifetime Lap Shear Test
Adhesi e ADH 1 3004 C cles (left) 3006 C cles (right)Adhesive ADH-1, 3004 Cycles (left), 3006 Cycles (right)(Non-symmetrical Specimen Clamped in Hydraulic Grips)
Ref. 1, 6
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Simulated blade joint study, see AIAA paper AIAA-2009-1510
Joint strength statistics and critical flaws; failure modes; geometry; ; g yFatigue exponentsPorosity modeling
Ref. 1, 6
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Fracture Mechanics Based TestsFracture Mechanics Based Tests
• Mode I Double Cantilever Beam (DCB)Mode I, Double Cantilever Beam (DCB) Test
• Mode II ENF Test• Mode II, ENF Test• Mixed Mode I and II Cracked Lap Shear
(CLS) T t(CLS) Test
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Adhesives and GIc from DCB Test
Designation Adhesive Cure temp (oC)
GIc, J/m2
(oC)
ADH-1 Hexion EP135G3/EKH1376 70 581EP135G3/EKH1376 70 581
ADH-5 Rhino 405 70 938ADH-6 3M W1100 70 1626
DCB Test
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CLS Adhesive Fracture Specimensp
Ref. 6
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Std. 50 mm 100 mm w/steel
50 mm w/steel G-Calibrations of CLS Specimensat 4.45 kN Tension LoadStd. 50 mm
50 mm w/steelw/steel
100 mmw/steel
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Adhesive Thickness Effect on Mode Mixity
0.80
short geometry (2" lap)3.8mm, steel
Adhesive Thickness Effect on Mode Mixity
0.60
0.70
0.5 mm
1 mm
2mm
3.8 mm (tested geom)
0.5 mm
0.40
0.50
G2/G
T
8 mm 2 mm
0.20
0.30
G
8 mm
0.00
0.10
0 5 10 15 20 25 30 35 40
crack length (mm)
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Maximum GT (tension half of cycle) vs da/dN, R = -1
Ref. 6
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ADH-1 Adhesive, R = 0.1 and -1, separated by Mode Mixity Range (reversed loading 10X higher crack velocity)
R = 0.1 R = -1
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Preliminary In Progress:
Define static Gc and fatigue crack growth thresholds over fullthresholds over full range of modes (GI/GII) and R-values experienced in blade jointsin blade joints (data for ADH-1).
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CLS Crack Paths on Section Normal to Crack Crack Path (Normal to Crack Direction)
Direction Near Adhesive / Laminate Interface
CRACK PATH:A. Cohesive in adhesiveB. Cohesive along peel surfaceC. Adhesive along strand surface
Expanded View of Path B
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CLS, ADH-1, laminate side CLS, ADH-1, adhesive side
Peel Surface CLS, ADH-5, laminate side
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Future Adhesives WorkFuture Adhesives Work
• Laminate Adhesive Peel Ply VariationsLaminate, Adhesive, Peel Ply Variations• Environment
M d li• Modeling• Further Test Development