University of Vigo posted this:New non-destructive method for “in situ” monitoring of anticorrosive protection of organic coatingsThe main novelty of the device and procedure is the new portable sensor adaptable to virtually any surface. The device, fixable by vacuum to the surface under study, makes possible the measurement of the electrochemical interfacial impedance, that is the main parameter of interest for adherence quality and anti-corrosion performance.
University of Vigo posted this:Diagnosis and cleaning using laser technology for the restoration of historical monumentsSince ancient times granite has been used in historic buildings. Some restorers used to apply molten beeswax on their granite surfaces to stop imminent deterioration of the monuments. At first, this treatment was a good solution to consolidate the stone, but with time it resulted counterproductive. This method allows removal and cleaning of wax and other contaminants from porous stones in historical monuments and artworks using nondestructive means through laser technology.
ADVANCED PASSIVE TECHNOLOGY posted this:
Cracow University of Technology posted this:Beafire – simulating fire resistance of reinforced concrete beamsThe Beafire technology consists of an originally developed algorithm for finding fire resistance of reinforced concrete beams and a prototype of an engineering application based on it. The algorithm couples 1D mechanical modelling with 2D simulation of cross-section temperature distribution what makes it very efficient. The application consists of GUI and stimulation engine modules.
Steinbeis Centre for Technology Transfer India posted this:Textile Reinforced Concrete Prototyping TechnologyTextile Reinforced Concrete Prototyping Technology (TRCPT) encompasses green and innovative construction practices that can be deployed to make products without using moulds. Some of the key features of the technology are: • Prototyping of Textile reinforced composite sheets yields products of various shapes and forms for structural as well as nonstructural applications. • Roofing sheets, slabs, tiles, filigree products, shells, pipes, etc. are some of the products made by using TRCPT. • The products can find a host of applications in infrastructure engineering including structural strengthening, repair and rehabilitation, lining of tunnel or canal, column jacketing, fire protection, wind energy generation infrastructure, affordable mass housing, etc.
Consejo Superior de Investigaciones Científicas posted this:Thermochromic mortar coating for a more sustainable construction CSIC has developed a thermochromic mortar coating with optical properties in the solar radiation range that vary according to temperature in a reversible way. The mortar is especially interesting for energy efficiency in buildings. Its solar radiation absorption at low temperatures is high, helping to maintain indoor heating, while its reflectance increases during the summer, reducing over-warming of the envelope. Industrial partners from the construction industry are being sought to collaborate through a patent licence agreement.
Universidad de Alcalá-OTRI posted this:Systems and applications based on indoor positioning via led-lightingThe use of LED lamps available for lighting of different parts of a building or room in such a way as to allow the transmission of very high-frequency codes non-perceptible by humans together with the illumination lights. These codes (one unique code for each LED lamp) will be decoded by light detectors included in smart-devices, or by detectors designed particularly for this purpose. From the code information, the device positioning can be determined with high precision.
Unitat de Valorització de la URV posted this:
Licensing Manager at Fundació URV
Cracow University of Technology posted this:Comprehensive method to assess the technical condition of the pressure equipment of installation operated in the chemical and petrochemical industryA comprehensive method to assess the technical condition of the pressure equipment of installation operated in the chemical and petrochemical industry, with the use of acoustic emission signal analysis, structure stress field and the degradation st The algorithm for the assessment of the technical condition of pressure equipment of chemical and petrochemical installations, subjected to the long-term operation, allows to determine the damage degree of the material and allows to predict the further development of degradation processes in a function of time. The proposed approach to the problem of safe operation of devices is fundamentally different from the solutions which are currently used in industrial practice. Currently, the supervision of these objects is based mainly on standard non-destructive testing methods. The main limitation of used methods is the lack of the possibility of both examining the object in its entire volume and testing the device in working conditions. Developed algorithm allows to effectively solve current problems in the diagnosis of chemical installations related to the assessment of their technical condition and determination of the conditions for further operation in real time. The algorithm is particularly recommended for monitoring devices in which adverse damages occur due to the long-term operation.
Germán Cabañero posted this:
HEAD OF STRATEGIC PARTNERSHIP at CIDETEC
Technology Transfer OfficeView Profile
Yissum - Research Development Company of the Hebrew University posted this:Using Chlorella Ohadii Algae Genes to Improve Plant Resistance to PhotodamageA photo damage resistant transgenic plant. Project ID : 8-2018-5702
UACOOPERA University of Aveiro posted this:
Technology Transfer Office at uacoopera
Júlia Nebot posted this:
Licensing Manager at Fundació URV