Masonry structures comprise a significant portion of the historical building stock all over the world. Previousstudies have clearly pointed out that unreinforced masonry buildings are vulnerable against extreme loadingconditions, such as seismic actions. Therefore, strengthening is inevitable in most cases for historical masonry towithstand severe loads. In this paper, the efficiency of fabric reinforced cementitious matrix is investigatedexperimentally by using diagonal tension tests. Fourteen wallets with a nominal size of 750x750x235 mm wereproduced with using solid clay bricks and a low-strength mortar. The bricks were collected from the structuralwalls of an early-20th century building under restoration. The low-strength mortar represents the historicalmortar commonly used in similar historical brick masonry buildings located in Istanbul, Turkey. By testing thespecimens under monotonic diagonal compression loads, the effects of different types of plasters on the walletsurface, varying types of fibers used in textile reinforcement and anchors used for the connection between FRCMand substrate are investigated. Although the wallet samples have inherent shortcomings in representing overallcomponent response accurately, still the qualitative findings are enlightening the effectiveness of the FRCMsystem by increasing shear strength, stiffness (shear modulus) and dissipated energy of the masonry wallets. Thestrengthened specimens were failed due to shear sliding along a bed joint and/or by a stair-shaped separationwhile the refence specimens were failed due to the splitting of the specimen into two parts in the stair-steppedshape and a slipping through a bed joint.
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In recent years, the number of human-induced earthquakes in Groningen, a large gas field in the north of the Netherlands, has increased. The majority of the buildings are built by using unreinforced masonry (URM), most of which consists of cavity (i.e. two-leaf) walls, and were not designed to withstand earthquakes. Efforts to define, test and standardize the metal ties, which do play an important role, are valuable also from the wider construction industry point of view. The presented study exhibits findings on the behavior of the metal tie connections between the masonry leaves often used in Dutch construction practice, but also elsewhere around the world. An experimental campaign has been carried out at Delft University of Technology to provide a complete characterization of the axial behavior of traditional connections in cavity walls. A large number of variations was considered in this research: two embedment lengths, four pre-compression levels, two different tie geometries, and five different testing protocols, including monotonic and cyclic loading. The experimental results showed that the capacity of the connection was strongly influenced by the embedment length and the geometry of the tie, whereas the applied pre-compression and the loading rate did not have a significant influence.
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De duurzame ontwikkelingsdoelen (SDGs) zijn een mondiaal kompas om van de wereld een betere plek te maken. Duurzame productie- en consumptiepatronen is één van de aandachtsgebieden en ook voor Nederland van nationaal en regionaal belang. Zo heeft Nederland de doelstelling geformuleerd dat in 2050 grondstoffen, producten en processen in de industrie klimaatneutraal en voor 80% circulair zijn (o.a. Missie Industrie). In dit kader wordt onderzocht hoe de verpakkingsproductie- en consumptieketen efficiënter en duurzamer gemaakt kan worden door bijvoorbeeld het toepassen van alternatieve, innovatieve voedselverpakking. Deze pilotstudie richt zich op de ontwikkeling van een duurzaam verpakkingsmateriaal dat eetbaar is, een zogenaamde ‘Fresh Layer’. Deze coating wordt als een beschermingslaag direct op het oppervlak van het voedselproduct aangebracht. De ontwikkeling van dit product is complex, omdat het product zowel functioneel, bioafbreekbaar en eetbaar moet zijn. Zowel in theorie als in praktijk wordt onderzocht welke criteria met betrekking tot functionele toepasbaarheid er gelden en welke biopolymeren gecombineerd met welke additieven er voldoen aan deze gestelde criteria. Op basis van literatuurstudie wordt een overzicht gemaakt van mogelijk succesvolle combinaties die voldoen aan de verpakkingseisen van voedsel. Het polysacharide alginaat wordt daarbij als basis gebruikt. Vervolgnes wordt er experimenteel onderzocht welke verhoudingen van alginaat met andere polysacharides in combinatie met weekmakers, zoals glycerol, geschikt zijn om de houdbaarheid van hard fruit te verlengen en functionele eigenschappen zoals waterdoorlaatbaarheid, tensile strenght, firmness, geur en structuur, worden bepaald. Tevens wordt er een inventarisatie gemaakt van bruikbare grondstoffen afkomstig vanuit reststromen van de Agrofood en Aquacultuur sector en de mogelijke toepasbaarheid binnen de scope van de voedselketen. Afsluitend wordt een stakeholdermeeting georganiseerd met relevante partijen uit de onderzoekswereld en voedselketen om de onderzoeksresultaten te delen en met elkaar vervolgacties te formuleren.
In order to decrease the environmental impact caused by the construction sector, biobased materials need to be further developed to allow better integration and acceptance in the market. Mycelium composites are innovative products, with intrinsic properties which rise the attention of architects, designers and industrial companies. Both mycelium foam and board material have the potential to substitute conventional toxic materials. The mechanical properties of these products are influenced by their production process. For example, bending and tensile strengths have shown to be higher in heat pressed samples (F. V.W. Appels, 2019). The heat press process related to mycelium boards, needs further development in terms of process timing and of parameters, as temperature, pressure and duration of pressing. It is the need to research mycelium boards which drove the partner companies to approach the Centre of Expertise BioBased Economy (CoEBBE). The project partners are the following: KNN Cellulose BV, Fungalogic and V8 Architects. The interest of each partner is focused on different aspects of mycelium boards, which can be summarised in the following questions: • Is it possible to use cellulose to produce mycelium composites? (KNN Cellulose) • What are the different production parameters and how can these be optimized? (V8 Architects, Fungalogic) • What are the mechanical material properties and (how) can mycelium boards be used for interior or construction purposes? (V8 Architects, Fungalogic) These questions merge together in the research question: is it possible to create a mycelium board with cellulose biomass that can be used as a substitution of conventional board materials? The developed research will bring specific knowledge to each involved partner. In particular, KNN Cellulose will have a new application for their product; Fungalogic will acquire knowledge on board materials and have a potential new product; V8 Architects will gain specific knowledge on mycelium products.
The postdoc candidate, Sondos Saad, will strengthen connections between research groups Asset Management(AM), Data Science(DS) and Civil Engineering bachelor programme(CE) of HZ. The proposed research aims at deepening the knowledge about the complex multidisciplinary performance deterioration prediction of turbomachinery to optimize cleaning costs, decrease failure risk and promote the efficient use of water &energy resources. It targets the key challenges faced by industries, oil &gas refineries, utility companies in the adoption of circular maintenance. The study of AM is already part of CE curriculum, but the ambition of this postdoc is that also AM principles are applied and visible. Therefore, from the first year of the programme, the postdoc will develop an AM material science line and will facilitate applied research experiences for students, in collaboration with engineering companies, operation &maintenance contractors and governmental bodies. Consequently, a new generation of efficient sustainability sensitive civil engineers could be trained, as the labour market requires. The subject is broad and relevant for the future of our built environment being more sustainable with less CO2 footprint, with possible connections with other fields of study, such as Engineering, Economics &Chemistry. The project is also strongly contributing to the goals of the National Science Agenda(NWA), in themes of “Circulaire economie en grondstoffenefficiëntie”,”Meten en detecteren: altijd, alles en overall” &”Smart Industry”. The final products will be a framework for data-driven AM to determine and quantify key parameters of degradation in performance for predictive AM strategies, for the application as a diagnostic decision-support toolbox for optimizing cleaning &maintenance; a portfolio of applications &examples; and a new continuous learning line about AM within CE curriculum. The postdoc will be mentored and supervised by the Lector of AM research group and by the study programme coordinator(SPC). The personnel policy and job function series of HZ facilitates the development opportunity.
