Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as...
Transcript of Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as...
![Page 1: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/1.jpg)
Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade
Composites
George C. Jacob, Nikhil E. Verghese, Theophanous Theophanis Ha Q Pham Bernd Hoevel Sweta SomasiTheophanis, Ha Q. Pham, Bernd Hoevel, Sweta Somasi
The Dow Chemical Company
AcknowledgementsProf. Frank Bates’ group at University of MinnesotaProf H J Sue’s group at Texas A&MProf. H. J. Sue s group at Texas A&MJohn F. Mandell’s group at Montana State University
![Page 2: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/2.jpg)
Outline
• Background on Epoxies
• Goal of current effort
• Introduction to block copolymer (BCP) technology
• Effects of BCP toughening on cured epoxy clear castings• Effects of BCP toughening on cured epoxy clear castings
•BCP Toughening mechanisms
• Effect of BCP toughening on cured epoxy composites
•2nd generation toughening
• Summary and conclusions
![Page 3: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/3.jpg)
Why are Epoxies Useful?
* Extremely good corrosion resistance
* Extremely good chemical resistance( id b l t )
X X
X X
X X
X X
Epoxy Hardener(acids, bases, solvents)
* Excellent adhesion to metalsX
X
X
X X
X
Epoxy Hardener
* Good thermal resistance
* Low shrinkage
X X X
Thermosetting Resin Low shrinkage
* Dimensionally stable under wide range of conditions (e.g. temperature) H2C
O
CH
H2C
O( g p )
* Availability of versatile curing chemistries,to tune properties (flexibility, curing properties,
H2C CH O
C4H8O2Exact Mass: 88.0524
Glycidyl Ether
waterborne formulations, etc.). Mol. Wt.: 88.1060C, 54.53; H, 9.15; O, 36.32
![Page 4: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/4.jpg)
Versatility of Epoxy Resins
O
OH
OO
O O
O
n
O
Easy Chainextensions
CrosslinkingAdhesion
Toughness Chemical Inertness
![Page 5: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/5.jpg)
Demands of the Market
Low exotherm Longevity
Fast cure responseAdjustable pot life
Crack ResistanceLight Weight
Fast InfusionLonger Pot LifeLatency
g g
L i it
Fatigue Stable viscosity
Controllable pot life Low viscosity
![Page 6: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/6.jpg)
Goal
• Provide toughness to epoxy thermosets but not at the expense of processibility and
other key performance attributes for the applications of interest
Processibility: high viscosity, rate of cure, component compatibility, etc.
Performance attributes: Tg, modulus, adhesion, water uptake, solvent resistance, etc.
A li ti P t ti ti (li id d d ) dh i it i l diApplications: Protective coatings (liquid and powder), adhesives, composites including
wind turbine blades
![Page 7: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/7.jpg)
Overview of Toughening Approaches
Plastisizer ModulusFlexibilization• Decrease in backbone stiffness
Aliphatic Chem Resist.
• Decrease in crosslink density• Uses plasticizers and diluents
pBackbone
Tg
CTBN CorrosionToughening• Properties of modifier
Core ShellR bb Viscosity
p• Concentration• Interfacial strength• Particle size
Rubbers Viscosity
![Page 8: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/8.jpg)
Overview of Toughening Approaches
Plastisizer ModulusFlexibilization• Decrease in backbone stiffness
Aliphatic Chem Resist.
• Decrease in crosslink density• Uses plasticizers and diluents
pBackbone
TgDevelopment of an effective toughening approach is needed!
CTBN CorrosionToughening• Properties of modifier
Core ShellR bb Viscosity
p• Concentration• Interfacial strength• Particle size
Rubbers Viscosity
![Page 9: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/9.jpg)
C l
Introduction to Amphiphilic BCP Technology
Copolymer Cured epoxy
curing
Bifunctional epoxy Curing agentCreation of ro gh spherical micelles before c re and refine str ct re d ri• Creation of rough spherical micelles before cure and refine structure duri
• Morphology at nano-meter length scale
![Page 10: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/10.jpg)
BCP in Epoxy
100nm
in epoxy
200200nm500
in epoxy
200nm
Dean, PhD thesis, 2002
200nm
wormlike micelle spherical micellevesicle
500nm
![Page 11: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/11.jpg)
Morphologies Accessed in the Dilute Limit
5 t % l5 wt.% copolymer
Bilayer Cylinderh
ySphere
wEpoxyphilic
100100 nm100 nm 100 nm100 nm100 nm
vesicles wormlike micelles spherical micelles
![Page 12: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/12.jpg)
Morphology Refinement During Cure
Uncured Cured
•
![Page 13: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/13.jpg)
Self Assembly vs. Conventional Macro-Phase Separation
Conventional Toughening (Example: CTBN Technology)
CuringCuring
10-30 volume %
S lf A bl (BCP T h l )
Epoxy
Curing AgentSelf Assembly (BCP Technology)
Curing
Agent
Polymer
Curing
<10 volume %
Better defined structures, reduced volume%, reduced viscosities
![Page 14: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/14.jpg)
Flexibilizers vs Tougheners
Increased level of flexiblizers or toughenersIncreased level of flexiblizers or toughenersFracture toughness is represented in units of MPa m0.5
![Page 15: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/15.jpg)
Composite Fabrication – Resin Infusion Process
VARTM (Vacuum Assist RTM)Vacuum Bag
Distribution Medium
Main Tool
Resin Inlet Resin
Outlet
Fiber Preform
Release Film
![Page 16: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/16.jpg)
Guide to Suitability of Toughening Technology
![Page 17: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/17.jpg)
Performance in Clear Castings
![Page 18: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/18.jpg)
Compact Tension Testing of Epoxies (ASTM D5045)
fracturefracture(plane strain)
P P = load at failure
Stress intensity factor
)W/a(fBWPK 2/1
maxc1 =
Pnax = load at failureB = sample thicknessW = lengtha = crack lengthf(a/w) is geometry dependentStrain energy release rate
21
1 (1 )cc
KG ν 2= − proportional to fracture toughness (J/m2)1 ( )c Ep p g ( )
![Page 19: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/19.jpg)
Typical Epoxy Composite Infusion Formulation – Low Tg System
• Significant improvement in Toughness (>150%)g p g ( )• No change in cured Tg• Increase in elongation at break
Properties measured at the neat plaque level
![Page 20: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/20.jpg)
Toughening Mechanism
![Page 21: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/21.jpg)
TEM Micrographs
Adjacent to crack wake Some distance from crack wake S di t fAdjacent to crack wake
• Elongated copolymer particles• Orientation of copolymer particles
Some distance from crack wake
• Less or no elongation of copolymer particles• No orientation of copolymer particles
Some distance from crack wake•No elongation or orientation of copolymer
ti lparticles• Cavitation
copolymer particles• Cavitation
particles• No cavitation
![Page 22: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/22.jpg)
Cavitation-Induced Matrix Shear Banding
(a) initiation of a starting crack
(b) formation of a block copolymer cavitation zone at the crack tip when the specimen is loaded
(c) expansion of the cavitation zone and initiation of a matrix shear banding zone at the crack tip when the hydrostatic stress is relieved by the cavitation
(d) crack propagates when the shear strain energy(d) crack propagates when the shear strain energy builds up to a critical value, with a damage zone surrounding the crack
(The sizes of the crack, cavitation and shear banding zone are not drawn to scale.)
![Page 23: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/23.jpg)
Crack Tip Blunting
• A reduction of yield stress implies that the plastic deformation ahead of the crack tipA reduction of yield stress implies that the plastic deformation ahead of the crack tip is easier
• Localized plastic deformation at the crack tip favors the crack tip being severely• Localized plastic deformation at the crack tip favors the crack tip being severely blunted
• Under this condition the strain energy release rate is greater resulting in a higher K• Under this condition, the strain energy release rate is greater resulting in a higher KIvalue
Kinloch, A. J.; Williams, J. G. J. Mater. Sci. 1980, 15, 987.
![Page 24: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/24.jpg)
Composite Processing Attributes of the BCP
![Page 25: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/25.jpg)
Fibers BCP
Filtration During Liquid Molding Processes
Fibers BCP
Nano-sized domains exist between fibers No filtration effect
![Page 26: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/26.jpg)
Effect of BCP on Formulation Rheo-kinetics
1000
10000
70
80
Toughened System
Control
Part A & Part B
100
Pa-s
)
50
60
(OC
)
Control
Temperature Profile
10
scos
ity E
ta* (
30
40
Tem
pera
ture
(
0.1
1Vi
20
30 T
Better Fiber Wet Outη of DERTM 383: 10030 cps at 25 oC
η of DERTM 383+5 wt% Dow’s BCP: 8400 cps at 25 oC
0.010 20 40 60 80 100 120 140 160 180 200
0
10η of DERTM 383+5 wt% Dow s BCP: 8400 cps at 25 oC
η of DERTM 383 + 5 wt% Core Shell Rubber: 13260 cps at 25 oC
Time (minutes)
TM – Trademark of the Dow Chemical Company
![Page 27: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/27.jpg)
Effect of BCP on Formulation Rheo-kinetics
1000
10000
70
80
Toughened System
Control
Part A & Part B
100
Pa-s
)
50
60
(OC
)
Control
Temperature Profile
10
scos
ity E
ta* (
30
40
Tem
pera
ture
(
Change in existing “viscosity-Tg-toughness” paradigm
0.1
1Vi
20
30 T
Better Fiber Wet Outη of DERTM 383: 10030 cps at 25 oC
η of DERTM 383+5 wt% Dow’s BCP: 8400 cps at 25 oC
0.010 20 40 60 80 100 120 140 160 180 200
0
10η of DERTM 383+5 wt% Dow s BCP: 8400 cps at 25 oC
η of DERTM 383 + 5 wt% Core Shell Rubber: 13260 cps at 25 oC
Time (minutes)
TM – Trademark of the Dow Chemical Company
![Page 28: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/28.jpg)
Performance in Fiber Reinforced Composites
![Page 29: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/29.jpg)
Test setup
Sample
ExtensometerMonitor/Data
IR Temperature Sensor
Monitor/Data• Load • StrainStrain• Temperature• Cycles to failurey
![Page 30: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/30.jpg)
Fatigue Results @ Composite Level
Similar resultsSimilar results have been duplicated within Dow
FabricFabric Architecture: ±45o: Resin SensitiveR=0.1
• Resin toughness translates into improved fatigue lifetimes especially at low- stress levels
![Page 31: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/31.jpg)
2nd Generation Toughening
![Page 32: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/32.jpg)
Effect of 2nd Gen Toughening on Properties – Clear Castings
Cure schedule followed:Cure schedule followed: 7 hrs at 70 C
![Page 33: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/33.jpg)
Moving from Clear Castings to Composites
• VARTM Composites made using typical epoxy infusion formulation – 7 hour, 70 C cure
• No major issues observed such as filtration etc.
![Page 34: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/34.jpg)
Fatigue Life Improvement @ Composite Level IP Captured
Improvement in Fatigue Lifein Fatigue Life by ~ 1 decade
Fabric Architecture: ±45o: Resin Sensitive
![Page 35: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/35.jpg)
Summary and Conclusions
• Block copolymer technology offers an opportunity to change the viscosity-Tg-toughness
balance in epoxy resin infusion systemsbalance in epoxy resin infusion systems
• Block copolymer toughening approach has advantages in wind turbine blade
it icomposite processing
• Low viscosity• No filtration• No filtration
• Block copolymer toughening has a positive influence on composite fatigue
• Over 1 decade improvement in composite fatigue life obtained through Dow’s 2nd• Over 1 decade improvement in composite fatigue life obtained through Dow s 2nd
generation toughening
![Page 36: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/36.jpg)
Relevant Dow Publications
1 Jia (Daniel) Liu Hung Jue Sue Zach Thompson Frank S Bates Marv Dettloff George C Jacob Nikhil Verghese Ha Pham “Nano Cavitation in Self Assembled1. Jia (Daniel) Liu, Hung-Jue Sue, Zach Thompson, Frank S. Bates, Marv Dettloff, George C. Jacob, Nikhil Verghese, Ha Pham, Nano-Cavitation in Self-Assembled Amphiphilic Block Copolymer-Modified Epoxy”, Presented at the 2008 Materials Research Society (MRS) Meeting, March 2008, San Francisco, CA, USA.
2. Marv Dettloff, George C. Jacob, Ha Pham, “Amphiphilic block copolymer toughening technology for epoxy thermosets”, Presented at the 2008 SCI (Society of Chemical Industry) Conference on Advances in the Epoxy Chemistry, August 2008, Limerick, Republic of Ireland.
3. Jia (Daniel) Liu, Hung-Jue Sue, Zach Thompson, Frank S. Bates, Marv Dettloff, George C. Jacob, Nikhil Verghese, Ha Pham, “Nano-Cavitation in Self-Assembled Amphiphilic Block Copolymer-Modified Epoxy”, Macromolecules, Vol. 41, (2008) p. 7616-7624.
4. Jia (Daniel) Liu, Hung-Jue Sue, Zach Thompson, Frank S. Bates, Marv Dettloff, George C. Jacob, Nikhil Verghese, Ha Pham, “Nano-Sized Micellar Structures of Self-assembled Amphiphilic Block Copolymers and their Toughening Effects in Epoxy Matrices”, Presented at the 236th American Chemical Society (ACS) National Meeting, August 2008, Philadelphia, PA, USA and published in the Conference Proceedings.
5. Rajesh Turakhia, George C. Jacob, Marv Dettloff, Ha Pham, “Novel Epoxy Toughening for Coatings and Composites Applications”, Presented at the 2008 TRFA Annual Meeting, September 2008, Chicago, IL, USA and published in the Conference Proceedings.
6 J Li H J S Z J Th F S B t M D ttl ff G J b N V h H Ph “St i R t Eff t T h i f N Si d PEP PEO Bl k6. J. Liu, H.-J. Sue, Z.J. Thompson, F.S. Bates, M. Dettloff, G. Jacob, N. Verghese, H. Pham, “Strain Rate Effect on Toughening of Nano-Sized PEP-PEO Block Copolymer Modified Epoxy”, Acta Materialia, Vol 57, No. 9, (2009) p. 2691-2701.
7. Jia (Daniel) Liu, Hung-Jue Sue, Zach Thompson, Frank S. Bates, Marv Dettloff, George C. Jacob, Nikhil Verghese, Ha Pham, “Effect of Crosslink Density on Fracture Behavior of Model Epoxies Containing Block Copolymer Nanoparticles”, Submitted to Polymer (2009).
8. Jia (Daniel) Liu, Hung-Jue Sue, Zach Thompson, Frank S. Bates, Marv Dettloff, George C. Jacob, Nikhil Verghese, Ha Pham, “Toughening of Epoxy Using PEP-PEO Block Copolymer Nanoparticles”, Accepted to be Presented at the 2009 ANTEC Conference, June 2009, Chicago, IL, USA and published in the ConferencePEO Block Copolymer Nanoparticles , Accepted to be Presented at the 2009 ANTEC Conference, June 2009, Chicago, IL, USA and published in the Conference Proceedings.
9. George C. Jacob, Marv L. Dettloff, Ha Q. Pham, Nikhil E. Verghese, Rajesh H. Turakhia, Carol O’Connell, Gary Hunter, Theophanous Theophanis, Jack Lesko, “Epoxy Thermoset Toughened with Amphiphilic Blcok Copolymers”, Accepted to be Presented at the 2009 ANTEC Conference, June 2009, Chicago, IL, USAand published in the Conference Proceedings.
10. Nikhil E. Verghese, George Jacob, Marv Dettloff, Ha Q. Pham, Jia Liu, Hung-Jue Sue, Zachary J. Thompson, Frank S. Bates, “Toughening of Epoxy Thermosets using Nano Scaled Self Assembled Amphiphilic Block Copolymer: A Look into the Toughening Mechanisms” Presented at the 14th International Conferenceusing Nano-Scaled, Self-Assembled Amphiphilic Block Copolymer: A Look into the Toughening Mechanisms , Presented at the 14th International Conference on Deformation, Yield and Fracture, April 2009, Rolduc, Kerkrade, The Netherlands and published in the Conference Proceedings.
11. Bernd Hoevel, George Jacob, Gary Hunter, Marv Dettloff, Ha Pham, “Advanced Epoxy Technology for Wind Turbine Blade”, Presented at the 2009 JEC Composite Show, Wind Energy Forum, March 2009, Paris, France.
12. Bernd Hoevel, Marv Detloff, George Jacob, Gary Hunter, Ha Pham, “Advanced Epoxy Technology for Wind Turbine Blade”, Submitted to Renewable Energy (2009).
13. George C. Jacob, Bernd Hoevel, Ha Q. Pham, Marv. L. Dettloff, Nikhil E. Verghese, Rajesh H. Turakhia, Gary Hunter, John F. Mandell, Daniel Samborsky, “Technical Advances in Epoxy Technology for Wind Turbine Blade Composite Fabrication”, Accepted to be Presented at the 2009 SAMPE Conference, October 2009, Wichita, KA, USA and published in the Conference Proceedings.
![Page 37: Advances in Epoxy Technology as Matrix Materials for Wind ... · Advances in Epoxy Technology as Matrix Materials for Wind Turbine BladeMaterials for Wind Turbine Blade Composites](https://reader031.fdocuments.us/reader031/viewer/2022040622/5d2656ac88c993782e8c4808/html5/thumbnails/37.jpg)
Thank you!