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1. November 2013
New Challenges in the Development
of Carbon Fibers
Institut für Textilchemie und Chemiefasern
D. Ingildeev, F. Hermanutz, M. R. Buchmeiser
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Properties and applications of carbon fibers
High tensile strength,
high modulus and low density,
electrical conductivity, biologically
inert
Light weight construction (automotive,
aerospace, sporting goods, …),
antistatic materials, medical
implants,…
C-Fiber Steel
density [g/cm³] 1.8 7.8
tensile strength [GPa] 3.5 – 7 0.8
E modulus [GPa] 230 – 400 200
elongation at break [%] 1.5 - 2
© PC Bikes, http://www.pg-bikes.com/#home-3
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E. Frank, F. Hermanutz, M. R.
Buchmeiser, Macromol. Mater. Eng.
2012, 297, 493–501.
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Manufacture of PAN-based carbon fiber precursor
Precursor
PAN-copolymer-derived precursors
Comonomers: acrylic acids and acrylic acid esters
Wet spinning process
Conventional wet spinning, air gap spinning
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Manufacture of PAN-based carbon fiber precursor
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Manufacture of PAN-based carbon fibers
Oxidation and Carbonization
Oxidative stabilization in air at 200 – 300 °C
Carbonization in nitrogen at 400 – 1500 °C
Optionally: graphitization in nitrogen at 1500 – 2500 °C
Major cost elements in the manufacture of carbon fiber:
51% 16% 23% 4% 6%
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Synthesis of precursor polymers by free radical polymerization:
Precursor characteristics:
Molecular weight (MW): 100,000 –160,000 g/mol
Polydispersity index (PDI, 𝑀 𝑤/𝑀 𝑛): 2 - 4
Broad MW distribution due to termination reactions:
poor control over MW and broad PDIs arise from the high reactivity of
acrylonitrile
High MW fraction aggravates processability (fiber spinning)
Comonomers necessary to facilitate processing
State of the art PAN precursors
acrylonitrile polyacrylonitrile
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Aim of the study
Determination of the influence of Mw and PDI on precursor and carbon fiber
processing and properties
PAN-copolymers with high Mw and low PDI produced by means of a new
polymerization technique:
Controlled Radical Polymerization (CRP)[1]
Principle: repelling of terminating
reactions by reducing the
concentration of the active species
dormant species active species
polymerization
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[1] a) K. Matyjaszewski, Macromolecules 2012, 45, 4015-4039; b) Fundamentals of Controlled/Living Radical Polymerization, B. Z. Tang, N. V.
Tsarevsky, B. S. Sumerlin (Eds.), 2013, RCS Publishing, Cambridge; c) H. Fischer, J. Polym. Sci. A Polym. Chem. 1999, 37, 1885–1901; d) C.J.
Hawker, A. W. Bosman, E. Harth, Chem. Rev. 2001, 101, 3661-3688; e) M. R. Buchmeiser, M. G. Marino, Macromolecular Mater. Eng. 2012, 297,
894–901.
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RAFT polymerization
Reversible Addition Fragmentation Chain Transfer Polymerization
Introduced 1998 by Moad, Rizzardo and Thang[1]
Dormant species are formed by a chain transfer agent which is a
thiocarbonyl thio compound[2]:
[1] J. Chiefari, Y. K. Chong, F. Ercole, J. Krstina, J. Jeffery, T. P. T. Le, T. A. Roshan Mayadunne, G. F. Meijs, C. L. Moad, G. Moad, E. Rizzardo, S.
H. Thang, Macromolecules, 1998, 31, 5559-5562.
[2] a) G. Moad, E. Rizzardo, S. H. Thang, Aust. J. Chem., 2005, 58, 379–410; b) Aust. J. Chem., 2006, 59, 669–692 ; c) Aust. J. Chem., 2009, 62,
1402–1472. d) E. Rizzardo, G.Moad, S. H. Thang, RAFT Polymerization in Bulk Monomer or in (Organic) Solution in: Handbook of RAFT
Polymerization, C. Barner-Kowollik (Ed.) 2008, Wiley-VCH, Weinheim, 6/189–234.
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RAFT polymerization of acrylonitrile
Advantage:
No transition metal ions such as Fe(II) or Cu(I) are present
Avoiding of expensive polymer purification prior to carbonization
Challenge:
Synthesis of PAN with high Mw and low PDI by CRP
CRP works well for low molecular weight PAN[1], but higher molecular
weights are needed for fiber spinning
Synthesis of low PDI precursor polymers of different molecular weights
[1] a) C. Tang, T. Kowalewski, K. Matyjaszewski, Macromolecules, 2003, 36,8587-8589. b) Q. An, J. Qian, L. Yu, Y. Luo, X. Liu, J. Polym. Sci. A:
Polym. Chem., 43, 2005, 1973-1977. c) X.-H. Liu, G.-B. Zhang, X.-F. Lu, J.-Y. Liu, D. Pan, Y.-S. Li, J. Polym. Sci. A: Polym. Chem., 44, 2006, 490-
498. d) X.-H. Liu, Y.-G. Li, Y. Lin, Y.-S. Li, J. Polym. Sci. A: Polym. Chem., 45, 2007, 1272-1281. e) X.-H. Liu, G.-B. Zhang, B.-X. Li, Y.-G. Bai, D.
Pan, Y.-S. Li, Eur. Polym. J., 44, 2008, 1200-1208. f) A. Aqil, C. Detrembleur, B. Gilbert, R. Jerome, C. Jerome, Chem. Mater., 2007, 19, 2150-2154.
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Synthesis of precursor polymers
Synthesis of homo- and copolymers: batch size 2 L
Yellow color arises from chromophoric RAFT end-groups
incorporated into the polymer
Determination of molecular weight and molecular
weight distribution via SEC
PAN-co-PMMA, Mn = 114,000 g/mol, PDI = 1.31
Advantage:
No transition metal ions such as Fe(II) or Cu(I) are present
Avoiding of expensive polymer purification prior to
carbonization
RAFT precursor polymer
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MW distribution
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Wet spinning of precursor fibers (1-3k)
Coagulation of the fiber at the spinneret
Start of spinning
Wet fiber on godet
Winding on spool RAFT-derived PAN-based
precursor on spool - 11 -
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Textile-mechanical properties:
in the range of standard PAN-based
precursor fibers[1]
RAFT-derived PAN-based precursor fibers
- properties
Morphology (SEM):
round cross-sections, dense
fibers, no voids; fibril
structure for highly
stretched fibers
Fineness [dtex] 1.1
Elongation [%] 13.1
Tenacity [cN/tex] 47.9
E-modulus [cN/tex] 1022
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[1] Z. Wangxi, L. Jie, W. Gang, Carbon 2003, 41, 2805-2812.
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Wide-angle X-ray diffraction (WAXS)
[1] A. K. Gupta, R. P. Singhal, J. Polym. Sci. Polym. Phys. Ed. 1983, 21, 2243-2262.
Possibility to determine crystallite
dimensions and lattice spacings[1]
RAFT-derived PAN-based precursor fibers
- supramolecular structure
Crystallinity (WAXS) [%]: 75
Density by gradient column [g/cm3]: 1.178
Crystallinity (determined via density) [%]: 72
Preferred orientation (100) [%] 90
Meas. data:JS004 80/Data 1
Inte
nsity (
co
un
ts)
0
500
1000
PAN, 0
2-theta (deg)
20 40 60 80
Amorphous, 0
Values fit very well
no micro-voids
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(100)
(110) curve fitting
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Thermal behavior of precursor fibers
DSC-, TG/MS-Analysis
DSC and TG/MS analysis to mimic oxidation and carbonization process
Oxidation Carbonization
TGA and MS traces of pre-oxidized
precursor in He, 10 K/min
DSC of RAFT-derived PAN-based
fibers in air, 5 K/min
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Properties of RAFT-derived PAN-based carbon
fibers
Textile-mechanical properties of the fibers carbonized at 1350 °C:
Morphology:
Fineness [dtex] 0.6 – 0.8
Tensile strength [GPa] ≤ 2.5
E-modulus [GPa] ≤ 145
Elongation [%] 1.4
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J. M. Spörl, A. Ota, R. Beyer, T. Lehr, A. Müller, F. Hermanutz, M. R. Buchmeiser, submitted (2013).
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Modification of wet and air gap spinning
technology for PAN
Development of supermicro precursor fibres based on polyacrylonitrile
New wet spinning technology has to be developed: superfine spinnerets for
manufacture of titer below 0.3 dtex required
Key to success: new laser technology available for drilling of tiny micro holes
for manufacture of superfine spinnerets
Advantages:
- Increase in tenacity of precursor and carbon fibers
- Cost reduction at the stabilization and carbonization
- Increase in fiber-matrix interaction
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Helical Laser Drilling
IFSW/FGSW Helical Drilling Optics Circulating Focused Laser Beam
Helical Drilling
f = 50 mm
df = 5,8 µm
DF = 1°
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Laser drilled spinneret 2000 x 25 µm
Outlet Inlet
10 µm 10 µm
1 µm
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Testdüse 2000 x 25 µm – Geometrie und Qualität
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Testdüse 2000 x 25 µm – Geometrie und Qualität
100 µm
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Cellulose-2.5-acetate Supermicro Fibres
Continuous spinning of supermicro fibres (filament process)
Fibres wound on bobbins
Different yarn sizes (f.i.: 200 dtex /1000f; 300 dtex /2000f)
Cross section of super-
micro fibres (0.2 dtex)
Surface of supermicro
fibres
Comparison of supermicro
fibres and standard
cigarette filter tow
(1.0 dtex = 1.0 g/10.000 m)
20 µm 10 µm 5 µm
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Cellulose as a carbon fiber precursor
Motivation:
Formation of carbon fibers from cellulose:
pulp spinning finishing oxidation carbonization
Development of high quality precursor
fibers based on cellulose from wood
Application of novel solvent systems
- Ionic Liquid technology
An increase in carbon yield Pyrolysis in reactive atmosphere or in the
presence of flame retardants
Wet and air gap spinning
e.g. novel solvents,
superfine spinnerets
Cellulose, derivatives Optimization of
carbon yield by
chemical
modification
? Formation of
graphite layers
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Pyrolysis of rayon in the presence of flame
retardants
Pyrolysis of high-tenacity rayon filament yarn
Thermogravimetric analysis between 20° and 1400 °C
in He atmosphere, heating rate of 10 K/min
flame retardant 1.0 %
flame retardant 1.5 %
flame retardant 0.5 %
unmodified precursor
temperature [°C]
1 Bacon, R., Tang, M.; Carbon, 2, 211, 1964
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Cellulosic carbon fiber precursors
Application of both wet spinning and air gap spinning using ILs
Figures: a.) Regular viscose , b.) IL spun fibre , c.) Tencel fibre
a.) b.) c.)
2 µm Figures: a.) Regular viscose , b.) IL spun fibre , c.) Tencel fibre
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Cellulosic carbon fibres
Figures: Pyrolysis of cellulosic precursor und resulting carbon fibres
2 µm
10 µm
1 µm
50 µm
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Lignins as a carbon fiber precursor
Inexpensive and renewable bypolymer
Recovered as waste products during the
manufacture of carbohydrates for paper,
sugars, and for biofuels production
Complex polymers containing three main
monomer units such as syringyl, guaiacyl
and p-hydroxyphenyl
No demonstration has yet been made of
suitable lignins being processed into carbon
fiber that satisfy both strength requirements
and cost objectives
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27
3D non-linear molecules
Amorphous supramolecular structure
No preferred orientation
lignin modification spinning oxidation carbonization
Purification
Refining
Chemical modifications
Soft wood,
Hard wood
- Kraft
- Sulfite
- Organosolv
Melt spinning Cross-linking
- Thermostablization
- Plasma irradiation etc
Formation of
graphite layers
Figure: Lignin-based carbon precursor fibers at ITCF
MOPAC2009-Simulation of hardwood lignin
Lignin as a carbon fiber precursor
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Thank You for Your Attention!