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Publications (10 of 12) Show all publications
André, A., Mattsson, C., Bru, T., Wästerlid, C., Lorentzon, K., Lindh, E. M., . . . Thidevall, N. (2024). Cirkulärt omhändertagande av solcellspaneler och vindturbinblad för vindkraftverk.
Open this publication in new window or tab >>Cirkulärt omhändertagande av solcellspaneler och vindturbinblad för vindkraftverk
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2024 (Swedish)Report (Other academic)
Abstract [sv]

I regleringsbrevet för 2023 fick Energimyndigheten i uppdrag av regeringen att utreda hur solcellspaneler och vindturbinblad till vindkraftverk i högre utsträckning ska kunna tas om hand på ett giftfritt och cirkulärt sätt i enlighet med avfallshierarkin. Redovisningen av detta regeringsuppdrag, rapporten Från avfall till resurs – Förslag för en mer cirkulär hantering av solcellspaneler och vindturbinblad, ER 2024:11, baseras på denna underlagsrapport som har tagits fram av forskningsinstitutet RISE på uppdrag av Energimyndigheten. Analyser, slutsatser och förslag/rekommendationer som framförs i rapporten är författarnas egna.En fortsatt utbyggnad av fossilfri elproduktion är av stor vikt för att vi ska kunna nå Sveriges energi- och klimatmål. För att utbyggnaden i sig ska vara hållbar är det viktigt att vi redan nu planerar för hur avfallet från dessa elproduktionsanläggningar ska förebyggas, minimeras och sedan hanteras.Det finns redan i dagsläget aktörer som har utvecklat och håller på att utveckla ett flertal olika lösningar för ökad cirkularitet. Dessa möjligheter kan tas tillvara och främjas genom regelbunden kartläggning och genom att arbeta gemensamt inom EU. Genom ett sådant arbete finns det också större möjligheter att etablera industriella värdekedjor i Sverige för hanteringen av avfallet från solcellspaneler och vindturbinblad.En cirkulär hantering av avfall ger ett betydligt mindre avtryck på miljön än det som en linjär hantering ger upphov till. Det är viktigt att de aktörer som tillhandahåller fossilfri elproduktion tar ansvar under hela livscykeln och att det finns goda förutsättningar för aktörerna att göra det.

Publisher
p. 154
Series
Statens energimyndighet, ISSN 1403-1892 ; ER 2024:12
National Category
Earth and Related Environmental Sciences
Identifiers
urn:nbn:se:ri:diva-73087 (URN)978-91-7993-165-0 (ISBN)
Funder
Swedish Energy Agency, 2023-10006 
Note

Rapporten har skrivits inom upphandling 2023-10006 

Available from: 2024-04-30 Created: 2024-04-30 Last updated: 2024-08-13Bibliographically approved
André, A., Bru, T., Ghafoor, A., Sinha, S. & Mattsson, C. (2023). Digital platform for managementof EoL windturbine blades: Rekovind 2 - WP2.
Open this publication in new window or tab >>Digital platform for managementof EoL windturbine blades: Rekovind 2 - WP2
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2023 (English)Report (Other academic)
Abstract [en]

The Rekovind2 project, financed by the Swedish Energy Agency, focuses on digitizing wind turbine blade streams for reuse and recycling. This is of the utmost importance to enable new, more circular technical solutions that can replace today’s non-sustainable recycling, i.e. landfill and incineration of wind turbine blades. In this report, the work carried out to map the wind turbine blades in service in Sweden is presented. The digital platform intended to make possible the re-use of blades reaching end-of-life is build around key features that will be required for re-use: blade database with all needed informations on the blade (age, damages, material, model, ...), map with blades geolocation, digital tool to help blade processing such as cutting, and information on what can be done with EoL blades.

Publisher
p. 31
Series
Energimyndigheten
Keywords
Repurpose, digitalisation, re-use, concept, calculation tool
National Category
Materials Engineering
Identifiers
urn:nbn:se:ri:diva-65656 (URN)
Note

Project name ” Rekovind2 - Digitalization of wind blade streams before reuse and recycling”, Swedish Energy Agency project number 47044-2, Dnr 2021-029795, RISE Project number TN23-00

Available from: 2023-07-05 Created: 2023-07-05 Last updated: 2024-02-12Bibliographically approved
Francis, S., Bru, T., Asp, L., Wysocki, M. & Cameron, C. (2021). Characterisation of tape-based carbon fibre thermoplastic discontinuous composites for energy absorption. Plastics, rubber and composites, 50(7), 351
Open this publication in new window or tab >>Characterisation of tape-based carbon fibre thermoplastic discontinuous composites for energy absorption
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2021 (English)In: Plastics, rubber and composites, ISSN 1465-8011, E-ISSN 1743-2898, Vol. 50, no 7, p. 351-Article in journal (Refereed) Published
Abstract [en]

Tape-based discontinuous composite is a relatively new type of composite material that offers improved mechanical properties for similar process-ability compared to Sheet Moulding Compound or Bulk Moulding Compound. This makes it potentially attractive for the automotive industry. In this paper, a thin-ply carbon fibre reinforced polypropylene-based discontinuous composite is studied. Mechanical tests are performed to obtain the tensile, compression and shear behaviour of the material. The energy absorption via tearing is also studied to assess the suitability of the material for energy absorption applications, such as crash-boxes. The tearing test results show a large degree of plastic deformation and an advancing damage front leading to higher specific energy absorption via tearing compared to conventional composite materials. © 2021 The Author(s). 

Place, publisher, year, edition, pages
Taylor and Francis Ltd., 2021
Keywords
crashworthiness, Discontinuous composites, energy absorption, mechanical properties, polypropylene, tearing, thermoplastics, Graphite fibers, Molding, Polypropylenes, Reinforced plastics, Compression and shear, Crash box, Fibre reinforced, Specific energy absorption
National Category
Composite Science and Engineering
Identifiers
urn:nbn:se:ri:diva-52969 (URN)10.1080/14658011.2021.1902119 (DOI)2-s2.0-85103569409 (Scopus ID)
Note

 Funding details: Horizon 2020, 721256; Funding text 1: This work has been performed as part of the ICONIC project under European Union's Horizon 2020 research and innovation programme, grant agreement no. 721256. The authors wish to thank Oxeon AB and Queens University of Belfast for providing the material for manufacturing.

Available from: 2021-04-26 Created: 2021-04-26 Last updated: 2023-06-08Bibliographically approved
Wilhelmsson, D., Rikemanson, D., Bru, T. & Asp, L. E. (2019). Compressive strength assessment of a CFRP aero-engine component – An approach based on measured fibre misalignment angles. Composite structures, 233, Article ID 111632.
Open this publication in new window or tab >>Compressive strength assessment of a CFRP aero-engine component – An approach based on measured fibre misalignment angles
2019 (English)In: Composite structures, ISSN 0263-8223, E-ISSN 1879-1085, Vol. 233, article id 111632Article in journal (Refereed) Published
Abstract [en]

In this paper we apply a recently developed methodology to assess the compressive strength of an aero-engine component based on measured fibre misalignment angles. The component is a fan outlet guide vane made from a carbon fibre reinforced polymer, which was manufactured and tested by GKN Aerospace in Sweden. The main novelty with this work is that kink-band formation is predicted from measurements of fibre misalignment angles with high spatial resolution in a real component. In addition, we validate the recently published “defect severity model” on unidirectional specimens of the same material system as the aerospace component. We confirm high accuracy of the model for prediction of compressive strength on unidirectional composite laminates. Further work is however needed to extend the methodology for cases where progressive damage leads to final failure. 

Place, publisher, year, edition, pages
Elsevier Ltd, 2019
Keywords
Aerospace, Compression failure, NCF composites, Strength models, Aircraft engines, Alignment, Carbon fiber reinforced plastics, Carbon fibers, Compressive strength, Engines, Laminated composites, Tensile strength, Aero-engine components, Aerospace components, High spatial resolution, Kink band formations, Unidirectional composites, Failure (mechanical)
National Category
Natural Sciences
Identifiers
urn:nbn:se:ri:diva-40917 (URN)10.1016/j.compstruct.2019.111632 (DOI)2-s2.0-85075387212 (Scopus ID)
Available from: 2019-12-10 Created: 2019-12-10 Last updated: 2023-06-08Bibliographically approved
Costa, S., Bru, T., Olsson, R. & Portugal, A. (2019). Improvement and validation of a physically based model for the shear and transverse crushing of orthotropic composites. Journal of composite materials, 53(12), 1681-1691
Open this publication in new window or tab >>Improvement and validation of a physically based model for the shear and transverse crushing of orthotropic composites
2019 (English)In: Journal of composite materials, ISSN 0021-9983, E-ISSN 1530-793X, Vol. 53, no 12, p. 1681-1691Article in journal (Refereed) Published
Abstract [en]

This paper details a complete crush model for composite materials with focus on shear dominated crushing under a three-dimensional stress state. The damage evolution laws and final failure strain conditions are based on data extracted from shear experiments. The main advantages of the current model include the following: no need to measure the fracture toughness in shear and transverse compression, mesh objectivity without the need for a regular mesh and finite element characteristic length, a pressure dependency of the nonlinear shear response, accounting for load reversal and some orthotropic effects (making the model suitable for noncrimp fabric composites). The model is validated against a range of relevant experiments, namely a through-the-thickness compression specimen and a flat crush coupon with the fibres oriented at 45° and 90° to the load. Damage growth mechanisms, orientation of the fracture plane, nonlinear evolution of Poisson's ratio and energy absorption are accurately predicted.

Keywords
Crushing, damage mechanics, friction, finite element analysis
National Category
Engineering and Technology
Identifiers
urn:nbn:se:ri:diva-36301 (URN)10.1177/0021998318807964 (DOI)2-s2.0-85061003872 (Scopus ID)
Available from: 2018-11-15 Created: 2018-11-15 Last updated: 2023-06-08Bibliographically approved
Bru, T., Asp, L., Olsson, R. & Vyas, G. (2018). Biaxial transverse compression testing for a fibre reinforced polymer material. In: : . Paper presented at 18th European Conference on Composite Materials ECCM-18.
Open this publication in new window or tab >>Biaxial transverse compression testing for a fibre reinforced polymer material
2018 (English)Conference paper, Published paper (Refereed)
Abstract [en]

Unidirectional laminates have been tested under uniaxial transverse compression and under biaxialtransverse compression. Failure occurred by shear in an inclined failure plane parallel to the fibres.The transverse shear response of the material on the failure plane was evaluated from the tests. In thebiaxial tests, the failure load was considerably higher than in the uniaxial tests. For a given transverseshear strain the transverse shear stress was also higher in the case of biaxial compression. It is alsoshown that using waisted specimens instead of prismatic specimens does not seem to bring noticeablebenefits for through-thickness uniaxial compression tests. The experimental results presented here areimportant input to the development and the validation of damage models of fibre reinforced polymermaterials accounting for the matrix nonlinear response in shear and compression.

Keywords
Polymer matrix composites, biaxial testing
National Category
Engineering and Technology
Identifiers
urn:nbn:se:ri:diva-36302 (URN)2-s2.0-85084161513 (Scopus ID)9781510896932 (ISBN)
Conference
18th European Conference on Composite Materials ECCM-18
Note

Paper ID: 3.10(5)-24

Available from: 2018-11-15 Created: 2018-11-15 Last updated: 2023-06-08Bibliographically approved
Bru, T., Waldenström, P., Gutkin, R., Olsson, R. & Vyas, G. M. (2017). Development of a test method for evaluating the crushing behaviour of unidirectional laminates. Journal of composite materials, 51(29), 4041-4051
Open this publication in new window or tab >>Development of a test method for evaluating the crushing behaviour of unidirectional laminates
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2017 (English)In: Journal of composite materials, ISSN 0021-9983, E-ISSN 1530-793X, Vol. 51, no 29, p. 4041-4051Article in journal (Refereed) Published
Abstract [en]

More fundamental test methods are needed to assist the development of physically based and truly predictive simulation tools for composite materials under crash conditions. In this paper, a unidirectional flat specimen that can be used to validate the predicted behaviour from a simulation to the physical behaviour in the experiment is developed. A systematic experimental investigation is conducted to evaluate the influence of the trigger geometry on the crushing response by selecting two trigger types and different trigger angles. For longitudinal crushing, the traditional bevel trigger leads to out-of-plane failure by splaying with a limited amount of in-plane fracture, while the proposed trigger achieves a high amount of compressive fragmentation failure. For transverse crushing, the symmetry of the proposed new trigger improves the specimen stability during the crushing process. It is also observed that the weft threads of the unidirectional fabric reinforcement used for the tests have a strong influence on the longitudinal crushing response. The boundary conditions of the test and the information on the specimen failure gleaned from video recordings and microscopic inspections are discussed in order to facilitate a future correlation with modelling results. © 2017, © The Author(s) 2017.

Keywords
Crushing, fractography, mechanical testing, non-crimp fabric composite, Fracture, Fracture mechanics, Video recording, Experimental investigations, Flat specimen, Non-crimp fabric composites, Out-of-plane failures, Physically based, Predictive simulations, Trigger angle, Unidirectional fabrics
National Category
Natural Sciences
Identifiers
urn:nbn:se:ri:diva-33053 (URN)10.1177/0021998317697811 (DOI)2-s2.0-85037057642 (Scopus ID)
Available from: 2018-01-11 Created: 2018-01-11 Last updated: 2023-06-08Bibliographically approved
Bru, T., Olsson, R., Gutkin, R. & Vyas, G. M. (2017). Use of the Iosipescu test for the identification of shear damage evolution laws of an orthotropic composite. Composite structures, 174, 319-328
Open this publication in new window or tab >>Use of the Iosipescu test for the identification of shear damage evolution laws of an orthotropic composite
2017 (English)In: Composite structures, ISSN 0263-8223, E-ISSN 1879-1085, Vol. 174, p. 319-328Article in journal (Refereed) Published
Abstract [en]

The experimental evaluation of the shear response of fibre-reinforced plies is a requirement for accurate material models predicting progressive damage. In the first part of the paper, the quality of the Iosipescu shear test is investigated with full-field strain measurements and finite element analyses. In the second part, the in-plane and through-thickness shear response of an orthotropic carbon/epoxy uni-weave non-crimp fabric composite are compared, and the stress–strain curves used as input for two continuum damage mechanics models. Both models were able to predict accurately the nonlinear shear behaviour of the material. The model parameters and the damage evolution laws could easily be extracted from cyclic Iosipescu tests.

Keywords
Continuum damage mechanics CDM, Fabrics/textiles, Finite element analysis (FEA), Shear testing, Thermosetting resin, Carbon, Continuum damage mechanics, Damage detection, Elasticity, Thermosets, Continuum damage mechanics model, Experimental evaluation, Full-field strain measurement, Non-crimp fabric composites, Orthotropic composites, Through-thickness shears, Finite element method
National Category
Natural Sciences
Identifiers
urn:nbn:se:ri:diva-30816 (URN)10.1016/j.compstruct.2017.04.068 (DOI)2-s2.0-85018974882 (Scopus ID)
Note

 Funding details: 34181-1/2, Energimyndigheten; Funding text: The funding for this research from the Swedish Energy Agency (Energimyndigheten), project number 34181-1/2, is gratefully acknowledged.

Available from: 2017-09-06 Created: 2017-09-06 Last updated: 2023-06-08Bibliographically approved
Costa, S., Portugal, A., Olsson, R., Vyas, G. & Bru, T. (2017). Validation of a novel model for the compressive response of FRP: numerical simulation. In: : . Paper presented at 21st International Conference on Composite Materials ICCM-21.
Open this publication in new window or tab >>Validation of a novel model for the compressive response of FRP: numerical simulation
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2017 (English)Conference paper, Published paper (Refereed)
Abstract [en]

A progressive damage model for matrix compression is complemented with matrix tension in a physically based manner. The interaction of damage mechanisms undergoes a preliminary validation using single elements. The crushing response is validated with two different flat specimens with the fibres oriented transversely and at 45 degrees to the load. The model combines friction with damage to model the shear response accurately, which is necessary for reliable crush simulations. The behaviour in tension is history dependent, i.e. the model accounts for the stiffness reduction and strength to carry load in tension when previously damaged occurs in compression.The validation is performed against different tests showing the reliability of the model for different fibre orientation, specimen geometry and multiaxial loading scenarios. The crush response is well captured as well as the geometry and location of the different damage mechanisms.

Keywords
Crushing, Damage modes, Friction, Damage mechanics
National Category
Engineering and Technology
Identifiers
urn:nbn:se:ri:diva-36298 (URN)2-s2.0-85053166997 (Scopus ID)
Conference
21st International Conference on Composite Materials ICCM-21
Note

Paper ID. 4280

Available from: 2018-11-15 Created: 2018-11-15 Last updated: 2023-06-08Bibliographically approved
Bru, T., Olsson, R., Vyas, G. & Costas, S. (2017). Validation of a novel model for the compressive response of FRP:experiments with different fibre orientations. In: : . Paper presented at 21st International Conference on Composite Materials Xi’an, 20-25th August 2017.
Open this publication in new window or tab >>Validation of a novel model for the compressive response of FRP:experiments with different fibre orientations
2017 (English)Conference paper, Published paper (Refereed)
Abstract [en]

Crush tests have been performed on flat unidirectional non-crimp fabric (NCF) coupons with differentfibre orientations as part of the validation of a ply-based damage model for crash. The fibre off-axisangle with respect to the crushing direction ranged from 0º to 90°. The results of the tests indicate thatthe crush stress remains unchanged for off-axis angles between 0° and 15°. The failure mode in thesespecimens was out-of-plane kinking. For 20° and 25° off-axis angles the crush stress dropped 20% andevidence of out-of-plane kinking were harder to find. For 45° off-axis angle a network of matrixcracks develops in the specimen and for 90° off-axis angle a brittle shear failure is observed. It issuggested that the out-of-plane kinking is promoted because of the natural waviness of NCF materialsand that the high in-plane shear stress generated from 20-25° off-axis loading results in a transitionfrom out-of-plane kinking to in-plane kinking. These hypotheses need, however, to be verified by anextended failure analysis of the crush specimens.

Keywords
Crushing, Mechanical testing, Fibre kinking, Fractography, Non-crimp fabric
National Category
Engineering and Technology
Identifiers
urn:nbn:se:ri:diva-36300 (URN)2-s2.0-85053103484 (Scopus ID)
Conference
21st International Conference on Composite Materials Xi’an, 20-25th August 2017
Note

Paper ID. 3827

Available from: 2018-11-15 Created: 2018-11-15 Last updated: 2023-06-08Bibliographically approved
Organisations
Identifiers
ORCID iD: ORCID iD iconorcid.org/0000-0002-2313-6512

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