Ton Peijs
TitleCited byYear
Current international research into cellulose nanofibres and nanocomposites
SJ Eichhorn, A Dufresne, M Aranguren, NE Marcovich, JR Capadona, ...
Journal of Materials Science 45 (1), 1, 2010
19052010
All-cellulose composites
T Nishino, T Peijs
Handbook of Green Materials - Processing Technologies, Properties and …, 2013
651*2013
Effects of environmental conditions on mechanical and physical properties of flax fibers
A Stamboulis, CA Baillie, T Peijs
Composites Part A: Applied Science and Manufacturing 32 (8), 1105-1115, 2001
3482001
Mechanical properties of natural-fibre-mat-reinforced thermoplastics based on flax fibres and polypropylene
SK Garkhail, RWH Heijenrath, T Peijs
Applied Composite Materials 7 (5-6), 351-372, 2000
3092000
Environmental durability of flax fibres and their composites based on polypropylene matrix
A Stamboulis, CA Baillie, SK Garkhail, HGH Van Melick, T Peijs
Applied Composite Materials 7 (5-6), 273-294, 2000
2752000
Development of flax fibre based textile reinforcements for composite applications
S Goutianos, T Peijs, B Nystrom, M Skrifvars
Applied Composite Materials 13 (4), 199-215, 2006
2512006
On the mechanical properties, deformation and fracture of a natural fibre/recycled polymer composite
ACN Singleton, CA Baillie, PWR Beaumont, T Peijs
Composites Part B: Engineering 34 (6), 519-526, 2003
2412003
Carbon nanotubes: from molecular to macroscopic sensors
JR Wood, Q Zhao, MD Frogley, ER Meurs, AD Prins, T Peijs, DJ Dunstan, ...
Physical Review B 62 (11), 7571, 2000
2342000
Universal resistivity–strain dependence of carbon nanotube/polymer composites
R Zhang, M Baxendale, T Peijs
Physical Review B 76 (19), 195433, 2007
2132007
Multiwalled carbon nanotubes and sepiolite nanoclays as flame retardants for polylactide and its natural fibre reinforced composites
TD Hapuarachchi, T Peijs
Composites Part A: Applied Science and Manufacturing 41 (8), 954-963, 2010
2112010
Composites for recyclability
T Peijs
Materials Today 4 (6), 30-35, 2003
1802003
The effect of fibre volume fraction and mercerization on the properties of all-cellulose composites
C Qin, N Soykeabkaew, N Xiuyuan, T Peijs
Carbohydrate Polymers 71 (3), 458-467, 2008
1782008
The mechanical properties of unidirectional all-polypropylene composites
B Alcock, NO Cabrera, NM Barkoula, J Loos, T Peijs
Composites Part A: Applied Science and Manufacturing 37 (5), 716-726, 2006
1742006
High strength and high modulus electrospun nanofibers
J Yao, CWM Bastiaansen, T Peijs
Fibers 2 (2), 158-186, 2014
1722014
Conductive network formation in the melt of carbon nanotube/thermoplastic polyurethane composite
R Zhang, A Dowden, H Deng, M Baxendale, T Peijs
Composites Science and Technology 69 (10), 1499-1504, 2009
1692009
All-cellulose composites by surface selective dissolution of aligned ligno-cellulosic fibres
N Soykeabkaew, N Arimoto, T Nishino, T Peijs
Composites Science and Technology 68 (10-11), 2201-2207, 2008
1612008
Cellulose biocomposites—from bulk moldings to nanostructured systems
LA Berglund, T Peijs
MRS Bulletin 35 (3), 201-207, 2010
1572010
All-cellulose nanocomposites by surface selective dissolution of bacterial cellulose
N Soykeabkaew, C Sian, S Gea, T Nishino, T Peijs
Cellulose 16 (3), 435-444, 2009
1572009
The effect of temperature and strain rate on the mechanical properties of highly oriented polypropylene tapes and all-polypropylene composites
B Alcock, NO Cabrera, NM Barkoula, CT Reynolds, LE Govaert, T Peijs
Composites Science and Technology 67 (10), 2061-2070, 2007
1532007
The extraordinary reinforcing efficiency of single-walled carbon nanotubes in oriented poly (vinyl alcohol) tapes
Z Wang, P Ciselli, T Peijs
Nanotechnology 18 (45), 455709, 2007
1452007
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Articles 1–20