Calculation of discontinuity regions - new -
![]() IDEA DETAIL
Programmi di calcolo per strutture in legno. I programmi di calcolo strutturale RSTAB e RFEM sono ideali per la progettazione e l'analisi di strutture 2D o 3D in legno, come travi semplici, travi continue, telai, travi reticolari in legno, capriate in legno lamellare incollato, pannelli sandwich in legno, case in legno a telaio, ponti, torri ed altro ancora.
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IDEA Steel Connection
BIM software for steel connections and structures
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IDEA BIM
BIM for reinforced, prestressed and steel members
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PRESTRESS
PREF calculation & drawing beams of any shape.
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Geotechnical suite
GEO5 suite of programs for geotechnical analysis
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ZWCAD
A cost-effective powerful dwg-based CAD
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MASONRY BUILDINGS
Nonlinear analysis of masonry buildings
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EUROCODES CALCULATION
EUROCODEexpress Calculation of all the structural Eurocodes
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Runet Reinf.Concrete
BETONexpress elements of reinforced concrete.
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Runet TIMBER
WOODexpress Design of elements for roofs and floors
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Runet STEEL
STEELexpress Design of Stuctural Steelwork Elements
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STEELPortalFrame EC3
STEEL Portal Frames according to Eurocode 3
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IDEA Concrete
BIM software for sections and reinf. concrete members
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IDEA RCS
Check of reinforced and prestressed cross-sections
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IDEA Corbels
Structural design of corbels - brackets
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BOOMERANG BEAMS
Calculation and drawing of Boomerang beams
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Continuous Beams
BIM Design of composite continuous Beams
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IDEA Prestressing
Calculation and design of precast elements
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TEES, SLABS
VECTOR: innovative anti-seismic system to connect tees, spandrels, slabs.
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STAIRS, BALCONIES
Invisible connections RVK - TSS for stairways, balcony and many more.
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BEAMS-COLUMNS
Elegant and functional solution to connect beam and column without visible support
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Engineering Design Firm
Project working design of precast buildings, Project design of foundation work for civil and precast buildings, Feasibility studies
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Measures to improve Seismic Resistance of Buildings
Design of Measures to improve Seismic Resistance of existing Buildings
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![]() HYPERSTATIC SEISMIC NODE
Revolutionary, hyperstatic, anti-seismic, precast building systems 'Eiseko fly seismic' & 'Eiseko flat seismic'
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DESIGN OF NEW STRUCTURES
More then 40 new elegant and operative structures designed all over Europe.
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BROCHURES
Brochures and product marketing materials, exploded views and videos of assemply making
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Material Testing Laboratory
EISEKO PROVE is a modern Material Testing Laboratory, equipped to perform a wide range of tests on various building materials. It can perform a lot of test in place on existing structures.
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F-GAS CALIBRATION of the measurement tools
Taratura F-GAS degli strumenti di misura: Gruppo Manometrico Analogico e Digitale -Termometro, Manometro e Vacuometro-Bilancia-Pompa per Vuoto-Multimetro e Pinza amperometrica
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BIM Design
The Building Information Modelling (BIM) is an innovative tool providing 3d models of the buildings, able to manage datas coming from the cooperation between the different design aspects (architectural, structural, MEP, worksite managment), to simplify the production, the modification and the comprehension process of the drawings, and finally to eliminate the possible design mistakes caused by incompatibilities not easily evident in a classic 2d model.
Free forms
Free Forms, introduced into the architecture world by Gaudi’s visions, have become the symbol of men’s ability to cast themselves into the future. Buildings grow as great sculptures thanks to the up-to-scratch graphics, with mathematical and analytical devices.
The free forms engineering finds the appropriate technology for its realization from a concept, whose construction is strictly connected to the structure, the materials, the techniques and the form itself.
Timber Structures
Compared with ‘traditional’ building techniques, timber structures feature a wide of advantages: high energy efficiency; low cost to build anti-seismic structures; excellent response in the event of fire (because of the inner core insulation); fast construction time; reversibility of the construction itself; reduced structural weight on foundations and existing buildings.
Structural glass
It is difficult to explain how fascinating glass architecture can be: transparency, reflection effects, selected transmission of light, possibility to shield enclosed spaces while ‘beaming’ them into the external environment, lightness, al of which encourage designers to be daring.
The large façades or the large glass roofs, ethereal, slender and light, state that the challenge concerning form, functionality, engineering and feasibility is now open.
Specialized Software
The different mechanical response of the various building materials requires a specific approach for each of them, as far as structural analysis is concerned.
The practice uses specialized software on each structural material, in order to achieve accurate Finite Element Modelling, which produces precise results on which the design is based.
Advanced parametric CAD
The use of CATIA enables us to achieve an extreme accuracy in advanced modelling, thanks to the digitalization of all components. The software generates a single, parametric 3D model, which is detailed in every part, so that it reduces both modelling time and the possibility of making mistakes concerning interpenetration and assembly, thankt to its easy drawing, applied to all the stages of assembly.
Applications programming
Studio Masiello has been developing several Macros in Visual Basic for Application (VBA) language. Our Macros create programmes which solve the numerous calculations required by current structural regulations, reducing possible errors. Moreover, via the Strand7 API (Application Programming Interface) it is possible to manage the calculation code and optimize the iterative process on each advanced model.
R&D
Studio Masiello has been cooperating with the Department of Civil Engineering of the University of Pisa since 2001. The Research and Development activity carried out in the last decade has been the basis of our work within the practice, and has enabled us to lead the structural design sector towards the use of innovative materials, advanced models and sophisticated technological details.
Technological integration
The new engineering approach requires a strong technological integration, which has been enabled by a close cooperation between our practice, workshops and workforce, all working together in order to make the idea become a physical construction; such cooperation has helped us spot and merge the scientific and building aspects, respecting the design concept with full compliance with the economic aspects of the project.
Design activity![]()
The practice is a team of young engineers dealing with every aspect of structural design.
The specialization achieved by each professional, in different design fields, allows an optimized and tailor-made approach to each project, which is managed by a skilled and highly experienced technician, in order to achieve high-quality standards in every project.
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December 2022
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