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Publications Prof. Dr. Edith Mäder

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1.Zhandarov, S.; Mäder, E.
Estimation of the local interfacial strength parameters of carbon nanotube fibers in an epoxy matrix from a microbond test data more
Carbon 86 (2015) 54-57
2.Tzounis, L.; Liebscher, M.; Mäder, E.; Pötschke, P.; Stamm, M.; Logothetidis, S.
Thermal energy harvesting for large-scale applications using MWCNT-grafted glass fibers and polycarbonate-MWCNT nanocomposites more
AIP Conference Proceedings 1646 (2015) 138-148
3.Saeb, M. R.; Najafi, F.; Bakhshandeh, E.; Khonakdar, H. A.; Mostafaiyan, M.; Simon, F.; Scheffler, C.; Mäder, E.
Highly curable epoxy/MWCNTs nanocomposites: An effective approach to functionalization of carbon nanotubes more
Chemical Engineering Journal 259 (2015) 117-125
4.Förster, T.; Plonka, R.; Mäder, E.; Heinrich, G.
Basaltfasern - Eisenoxidreiche Glasfasern mit erhöhtem E-Modul more
Technische Textilien/Technical Textiles (2014) 138-140
5.Förster, T.; Plonka, R.; Mäder, E.; Heinrich, G.
Basalt fibers - glass fibers rich in iron oxide having enhanched young's modulus more
Chemical Fibers International (2014) 142-144
6.Mäder, E.; Gao, S.-L.; Hiller, J.
Verbesserte Grenzflächenhaftung more
Carbon Composites Magazin 15 (2014) 38
7.Zhang, J.; Zhuang, R.-C.; Liu, J.; Scheffler, C.; Mäder, E.; Heinrich, G.; Gao, S.-L.
A single glass fiber with ultrathin layer of carbon nanotube networks beneficial to in-situ monitoring of polymer properties in composite interphases more
Soft Materials 12 (2014) S115-120
8.Förster, T.; Scheffler, C.; Mäder, E.; Heinrich, G.; Jesson, D. A.; Watts, J.F.
Dissolution behaviour of model basalt fibres studied by surface analysis methods more
Applied Surface Science 322 (2014) 78-84
9.Qi, H.; Liu, J.; Mäder, E.
Smart cellulose fibers coated with carbon nanotube networks more
Fibers 2 (2014) 295-307
10.Chen, L.; Yang, S.; Mäder, E.; Ma, P.-C.
Controlled synthesis of hierarchical TiO2 nanoparticles on glass fibres and their photocatalytic performance more
Dalton Transactions 43 (2014) 12743-12753
11.Sharma, M.; Gao, S.-L.; Mäder, E.; Bijwe, J.
Carbon fiber surfaces and composite interphases more
Composites Science and Technology 102 (2014) 35-50
12.Malanin, M.; Plonka, R.; Mäder, E.
Glass cord with improved mechanical properties, adhesion strength and environmental durability more
Chemical Fibers International 64 (2014) 139-142
13.Mäder, E.; Malanin, M.; Plonka, R.
Verbesserte mechanische Eigenschaften, Adhäsionsfestigkeit und Hydrolyseresistenz von Glascord more
Technische Textilien/Technical Textiles (2014) 117-119, E105-E107
14.Zhandarov, S.; Mäder, E.
An alternative method of determining the local interfacial shear strength from force-displacement curves in the pull-out and microbond tests more
International Journal of Adhesion and Adhesives 55 (2014) 37-42
15.Tzounis, L.; Kirsten, M.; Simon, F.; Mäder, E.; Stamm, M.
The interphase microstructure and electrical properties of glass fibers covalently and non-covalently bonded with multiwall carbon nanotubes more
Carbon 73 (2014) 310-324
16.Tzounis, L.; Debnath, S.; Rooj, S.; Mäder, E.; Das, A.; Stamm, M.; Heinrich, G.
High performance natural rubber compositives with a hierarchical reinforcement structure of carbon nanotube modified natural fibers more
Materials and Design 58 (2014) 1-11
17.Rausch, J.; Mäder, E.
Carbon nanotube-based interphase sensor for structural health monitoring in continuous glass fiber-reinforced polypropylene more
in: Recent Advances in Adhesion Science and Technology in Honor of Dr. Kash Mittal, Gutowski, W.V.; Dodiuk, H., ed. (CRC Press 2014) 2014, 295-318
18.Salehi, S.; Bahners, T.; Gutmann, J.S.; Gao, S.-L.; Mäder, E.; Fuchsluger, T.A.
Characterization of structural, mechanical and nano-mechanical properties of electrospun PGS/PCL fibers more
RSC Advances 4 (2014) 16951-16957
19.Qi, H.; Liu, J.; Deng, Y.; Gao, S.-L.; Mäder, E.
Cellulose fibres with carbon nanotube networks for water sensing more
Journal of Materials Chemistry A 2 (2014) 5541-5547
20.Zhandarov, S.; Mäder, E.
Analysis of a pull-out test with real specimen geometry. Part II: the effect of meniscus more
Journal of Adhesion Science and Technology 28 (2014) 65-84

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