Hans Lilholt scite author profile

A comparative study of cellulose crystallinity based on the sample crystallinity and the cellulose content in plant fibres was performed for samples of different origin. Strong acid hydrolysis was found superior to agricultural fibre analysis and comprehensive plant fibre analysis for a consistent determination of the cellulose content. Crystallinity determinations were based on X-ray powder diffraction methods using sideloaded samples in reflection (Bragg-Brentano) mode. Rietveld refinements based on the recently published crystal structure of cellulose Ib followed by integration of the crystalline and amorphous (background) parts were performed. This was shown to be straightforward to use and in many ways advantageous to traditional crystallinity determinations using the Segal or the Ruland -Vonk methods. The determined cellulose crystallinities were 90 -100 g/100 g cellulose in plant-based fibres and 60 -70 g/100 g cellulose in wood based fibres. These findings are significant in relation to strong fibre composites and bio-ethanol production.

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Composite Materials for Wind Power Turbine Blades

Brøndsted

Lilholt

Lystrup

2005

Annu. Rev. Mater. Res.

386

188

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▪ Abstract Renewable energy resources, of which wind energy is prominent, are part of the solution to the global energy problem. Wind turbine and the rotorblade concepts are reviewed, and loadings by wind and gravity as important factors for the fatigue performance of the materials are considered. Wood and composites are discussed as candidates for rotorblades. The fibers and matrices for composites are described, and their high stiffness, low density, and good fatigue performance are emphasized. Manufacturing technologies for composites are presented and evaluated with respect to advantages, problems, and industrial potential. The important technologies of today are prepreg (pre-impregnated) technology and resin infusion technology. The mechanical properties of fiber composite materials are discussed, with a focus on fatigue performance. Damage and materials degradation during fatigue are described. Testing procedures for documentation of properties are reviewed, and fatigue loading histories are discussed, together with methods for data handling and statistical analysis of (large) amounts of test data. Future challenges for materials in the field of wind turbines are presented, with a focus on thermoplastic composites, new structural materials concepts, new structural design aspects, structural health monitoring, and the coming trends and markets for wind energy.

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Physical and mechanical properties of unidirectional plant fibre composites—an evaluation of the influence of porosity

Madsen

Lilholt

2003

Composites Science and Technology

290

154

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Plant fibre composites – porosity and stiffness

Madsen

Thygesen

Lilholt

2009

Composites Science and Technology

160

114

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Plant fibre composites – porosity and volumetric interaction

Madsen

Thygesen

Lilholt

2007

Composites Science and Technology

120

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Hans Lilholt

On the determination of crystallinity and cellulose content in plant fibres

Composite Materials for Wind Power Turbine Blades

Physical and mechanical properties of unidirectional plant fibre composites—an evaluation of the influence of porosity

Plant fibre composites – porosity and stiffness

Plant fibre composites – porosity and volumetric interaction

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