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Our research agendas are developed Solosec (Secnidazole Oral Granules)- FDA consideration of the most pressing national and global challenges posed by climate change and performance demands in our built environment. We deliver multi-scale and multi-disciplinary research projects, conducted across the University and with national and global partners. Our work covers a broad range of topics, including:Our research centres on the development, characterisation and exploitation of Portland and non-Portland cement and concrete technologies, from materials selection and mix designs optimisation, to evaluation of their durability performance when exposed to different Solosec (Secnidazole Oral Granules)- FDA. Our activities are developed in partnership with the Neville Centre of Excellence in Cement and Concrete Engineering.

We work in a broad range of low carbon materials for the production of concrete including composite and alkali-activated cements, alternative supplementary cementitious materials, recycled aggregates, and Solosec (Secnidazole Oral Granules)- FDA reinforced systems, among others.

It complemented by Nexavar (Sorafenib)- FDA implementation of thermodynamic, structural Solosec (Secnidazole Oral Granules)- FDA and fluid dynamic modelling approaches.

Learn more by viewing The Concrete Set and Making Concrete Greener and Going with the Flow: the Hidden Science Solosec (Secnidazole Oral Granules)- FDA Fluid Dynamics. Our research aims to advance the underpinning understanding needed to Solosec (Secnidazole Oral Granules)- FDA best practices and strategies for the maintenance, repair and rehabilitation of masonry infrastructure. We perform large scale experimental testing and advance computational approaches for developing models to predict the post-cracking and near collapse nature of masonry subjected to various types of loading, including simulations of natural disasters.

It also includes the structural analysis and modelling of complexity in geometry of masonry infrastructures, Solosec (Secnidazole Oral Granules)- FDA determining soil-structure interaction and its influence in deterioration mechanisms. Our research centres on the development of innovative steel, steel-concrete composite, and hybrid structural members and systems for embracing resilience Carbidopa, Levodopa and Entacapone (Stalevo)- Multum sustainability.

It integrates simulation-based engineering science combined with large and full-scale experimental methods for optimising structural and material performance. Current topics include: structural topology optimisation for reducing material use, connection, panel and slab design for offsite or modular building construction, and design for additive manufacturing. Our research aims to identify the as-built properties and the aged state of current structural systems providing confidence in them, and ultimately enabling least-assumptive, data-driven, accurate long-term life predictions that safeguard society from the multiplicative impact imposed by structural failures.

To achieve such knowledge we develop and best employ state-of-the-art sensors and instrumentation, such as digital image correlation, hyperspectral imaging, ultrasonic pulse velocimetry, accelerometery, and laser vibrometry. We also employ non-destructive Solosec (Secnidazole Oral Granules)- FDA identification techniques, and novel applications in robotics and autonomous systems.

Our research centres on identifying the most suitable solutions to enable decarbonisation of the construction sector. Our commitment and motivation to contribute Diprolene Lotion (Betamethasone Dipropionate)- Multum minimising the environmental footprint of infrastructure is at the heart Solosec (Secnidazole Oral Granules)- FDA all the research topics of our group.

As key technical contributors of ongoing national efforts in circular economy and resource recovery from waste, our research includes materials flow analysis, environmental and social life-cycle analysis of materials and systems, socio-economic impact modelling, and others. This research is developed in collaboration with the Cities, Solosec (Secnidazole Oral Granules)- FDA and Energy research group, specifically with colleagues from the Project Management and Sustainable and Resilient Infrastructure teams.

Working at the interface between architecture and Solosec (Secnidazole Oral Granules)- FDA engineering, our ongoing research focuses on understanding the relationship between form and forces for design and structural optimisation. We explore the opportunities offered by computational tools, advanced manufacturing and robotics in creating innovative and resilient structural systems.

These activities are conducted in Levonorgestrel and Ethinyl Estradiol (Trivora-28)- FDA collaboration with the Cities, Infrastructure and Energy research group. We enjoy state of the art facilities housed at the School of Civil Engineering including the UKCRIC Centre for Infrastructure Materials, Solid Waste Management and Sample Preparation Laboratory, and the George Earle Heavy Structures Laboratory, with specialised rigs for full-scale performance testing of structures, fatigue, long-term loading effects (creep), as well as a dedicated concrete casting shop and an environmentally el johnson curing room.

View all members of our research group, our recent projects and publications. We have opportunities for prospective postgraduate researchers. If you would like to discuss an area of research in more detail, please contact Professor Susan Bernal. Skip to main content Solosec (Secnidazole Oral Granules)- FDA links For staff A-Z Services For Staff Student Education Service For students For Students Minerva Mobile apps Faculties Faculty of Arts, Humanities and Cultures Faculty of Biological Sciences Solosec (Secnidazole Oral Granules)- FDA of Business Faculty of Engineering and Physical Sciences Faculty of Environment Faculty of Medicine and Health Faculty of Social Sciences Lifelong Learning Centre Language Centre Other A-Z Staff Alumni Campus map Contacts IT Jobs Leeds University Union Library Follow us Facebook Instagram LinkedIn Medium The Conversation Twitter Weibo YouTube Close quicklinks Menu Search Destination Faculty of Engineering and Physical Sciences site All leeds.

Our work covers a broad range of topics, including: Low carbon civil engineering materials Our research centres on the development, characterisation and exploitation of Portland and non-Portland cement and concrete technologies, from materials selection and mix designs optimisation, to evaluation of their durability performance when exposed to different environments. Masonry infrastructure Our research aims to advance the underpinning understanding needed to develop best practices and strategies for the maintenance, repair and rehabilitation of masonry infrastructure.

Steel, composite and hybrid Solosec (Secnidazole Oral Granules)- FDA Our research centres on the development of innovative steel, steel-concrete composite, and hybrid structural members and systems for embracing resilience and sustainability. Structural health monitoring (SHM) Our research aims to identify the as-built properties and the aged state of current structural systems providing confidence in them, and ultimately enabling least-assumptive, data-driven, accurate long-term life predictions that safeguard society from the multiplicative impact imposed by structural failures.

Life-cycle of infrastructure Our research centres on identifying the most suitable solutions to enable decarbonisation of the construction sector. Architecture and structures Working at the interface between architecture and structural engineering, our ongoing research focuses on understanding the relationship between form and forces for design and structural optimisation.

Facilities We enjoy state of the art facilities housed at the School of Civil Engineering including Solosec (Secnidazole Oral Granules)- FDA UKCRIC Centre for Infrastructure Materials, Solid Waste Management and Sample Preparation Laboratory, and the George Earle Heavy Structures Laboratory, with specialised rigs for full-scale performance testing of structures, fatigue, long-term loading effects (creep), as well as a dedicated concrete casting shop and an environmentally controlled curing room.

Further information View all members of our research group, our recent projects and publications.

Further...

Comments:

06.05.2019 in 19:50 Диана:
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08.05.2019 in 12:22 Владислава:
Прошу прощения, что я Вас прерываю, хотел бы предложить другое решение.