Wenzhuo Ma, M. Sc.

Werdegang (Auszug)

• Wissenschaftliche Mitarbeiterin am Institut für Baustoffe, Massivbau und Brandschutz (iBMB), Fachgebiet Massivbau der Technischen Universität Braunschweig
• Wissenschaftliche Mitarbeiterin am Institut für Baustoffe, Massivbau und Brandschutz (iBMB), Fachgebiet Organische Baustoffe und Holzwerkstoffe der Technischen Universität Braunschweig
• Material- und Chemieingenieurin bei Thomson Research Associates, Inc., China
• Masterstudium der Textiltechnologie an der University of Manchester, Großbritannien
• Bachelorstudium des Textilingenieurwesens an der Jiangnan University, China

Schwerpunkte in der Forschung

• Slip Joints und Tragstrukturen von Offshore-Windenergieanlagen
• Nachhaltige Baustoffe

Publikationen

ResearchGate

Beiträge in Fachzeitschriften

• Ma, W.; Yan, L. (2025): Mechanical and chemical effects of wet-dry cycling and UV exposure on flax textile reinforced recycled aggregate concrete: role of rice husk ash.  Journal of Building Engineering 114 (2025), 114177. (Link)
• Ma, W.; Yan, L.; Klingner, R. (2025): Enhancing long-term alkaline durability of epoxy-coated flax textile for internal concrete reinforcement: surface modification & matrix integration with rice husk ash. Construction and Building Materials 477 (2025), 141080. (Link)
• Ma, W.; Yan, L.; Kasal, B. (2025): Intensive exploration: the application potential of flax fibre/textiles as reinforcement in cementitious composites. Journal of Cleaner Production 507 (2025), 145457. (Link)
• Chen, H.; Ma, W.; Kasal, B.; Wei, Y.; Yan, L. (2025): Flexural behavior of adhesively bonded cross-laminated timber-concrete composite (TCC) panel with glass-fiber textile mesh as reinforcement in concrete: Experimental studying and numerical simulation. Engineering Structures 330 (2025), 119916. (Link)
• Ma, W.; Yan, L.; Kasal, B. (2024): Bond and tensile properties of flax textile reinforced recycled aggregate concrete: strategies for interfacial enhancement and corresponding mechanisms. Case Studies in Construction Materials 21 (2024), e04006. (Link)
• Ma, W.; Kolb, T.; Rüther, N.; Meinlschmidt, P.; Chen, H.; Yan, L. (2024): Physical, Mechanical, thermal and fire behaviour of recycled aggregate concrete block wall system with rice husk insulation. Energy and Buildings 320 (2024), 114560. (Link)
• Ma, W.; Lv, B.; Wang, Y.; Huang, L.; Yan, L.; Kasal, B. (2024): Freeze-thaw, chloride penetration and carbonation resistance of natural and recycled aggregate concrete containing rice husk ash as replacement of cement. Journal of Building Engineering 86 (2024), 108889. (Link)
• Ma, W.; Wang, Y.; Huang, L.; Yan, L.; Kasal, B. (2023): Natural and recycled aggregate concrete containing rice husk ash as replacement of cement: Mechanical properties, microstructure, strength model and statistical analysis. Journal of Building Engineering 66 (2023), 105917. (Link)

   

Beiträge in Tagungsbänden

• Ma, W.; Wang, Y.; Huang, L.; Yan, L.; Kasal, B. (2023): Optimisation and prediction of compressive properties for concrete containing recycled aggregates and rice husk ash using response surface methodology (RSM). Tagungsband der 21. Internationalen Baustofftagung (ibausil 2023), 13.-15.09.2023 in Weimar (Deutschland), S. 1009–1014. (Link)