Kloeckner Metals UK Westok pioneered the development of structural steelwork software covering the analysis and design of cellular beams in the 1990s, and the Cellbeam software package has been progressively updated to include Ultra Shallow Floor Beams ® to BS and EC design codes. Structural engineers use our software every day to analyse, design and specify cellular beams, USFBs, and plate beams; to check the vibration performance of the floor; and to utilise our BIM software links to provide an integrated multi-disciplinary design. Westok Revit Family members are also available.
RAM SBeam is a powerful and versatile program for the design of castellated and cellular steel beams. Using one of several design codes, RAM SBeam can select the optimum size or check the adequacy of existing construction, as well as provide design parameter ranges to allow freedom for the fabricator to determine a cutting pattern that eliminates unnecessary web hole infills.
RAM SBeam is a specialized software for the design of steel beams and joists. Model beams of many types including composite, castellated, and cellular beams. With RAM SBeam you can consider skip loading, unbraced bending segment, partial composite and construction constraints to produce the optimal composite beam design solution for your clients. It offers powerful design and comprehensive reports all within a simple, easy-to-use, interface. RAM SBeam supports the design standards of AISC 360, CAN/CSA S16, BS5950, Eurocode and AS 4100.
The full range of ArcelorMittal pre-design software dedicated to optimisation of structures made of steel and composite elements (including castellated, slim floor and truss beams) according to standards, advanced fire engineering, seismic/earthquake design, predesign of several typologies of bridges and life-cycle assessments.
ArcelorMittal Beams CalculatorCalculation of steel, partially encased and integrated beams (SFB, IFB type A and B) in cold and fire conditions. The software complies with EN 1993-1 and the current state-of-the-art regarding the calculation of integrated beams.
Beam and integrated floor beamsCalculation of steel, partially encased and integrated beams (SFB, IFB type A and B) in cold and fire conditions. The software complies with EN 1993-1 and the current state-of-the-art regarding the calculation of integrated beams.
Software designs composite floor slabs at elevated temperatures by taking into account the enhancing effects of the membrane action in slab. It also verifies the edge beams and determines the maximum temperature of each beam.
Predesign of straight, skewed and/or curved filler beam, composite and PreCoBeam bridges for roads, rails and pedestrian, according to EN Eurocodes. For railway bridges, the software allows for the dynamic predesign of high-speed trains according to EN 1991-2.
Using a cellular beam is one of the most popular ways to increase load capacity, to save weight and to create an economic structure. But, in most cases, the design of these beams are carried out with separate programs and design charts.
Both hot rolled I and H section, such as UB or UC or European IP or HE, and built-up I sections can be used to create cellular beams. The smart handling of cellular beams, in case of the hot-rolled sections, automatically updates the height of the section (and of course the section properties) according to the cellular hole diameter and the manufacturing requirements.
The lightweight appearance of ACB® cellular beams combined with their high strength never ceases to inspire architects in new structural forms. The optimised height/weight or load/weight ratio provides effective answers to the demands of project owners.
RAM SBeam is an easy-to-use, composite steel beam design application that considers skip loading, unbraced bending segment, partial composite and construction constraints to produce the optimal composite beam designs.
RAM SBeam supports the design standards of AISC 360, CAN/CSA S16, BS5950, Eurocode, and AS 4100. Using one of several design codes, RAM SBeam can select the optimum beam size or check the adequacy of existing construction. RAM SBeam helps you save time by providing rapid evaluation and comparison between various beams under various load conditions, while providing a more economical design for your client.
However, there is comfort in the idea that certain architectural mainstays are consistent from year to year. For instance, castellated and cellular beams have been in mainstream architectural use for the better part of a century.
And both c-beams, cellular and castellated, show no signs of slowing down anytime soon, as they are still prominently featured in a wide array of modern architecture. We've prepared a guide to help you understand the origins, design, and application of c-beams!
Castellated sections are formed by welding longitudinally-cut webs of rolled sections (rolled I-sections available in section databases). There are 2 castellated section types available: those with hexagonal or with round openings. Adblock opera gx download. Castellated members can be designed only in accordance with the Polish steel code. The following parameters specify a castellated section: Label - Assigns a label. The full range of ArcelorMittal pre-design and calculation software including beams/column calculators, composite structures, sheet pile design, castellated beam solutions, fire calculator, seismic/earthquake design calculator, and life-cycle assessment tool.
C-beams also encompass cellular beams, though the cellular beam fabrication process includes a double-pass process. While cellular beams are more modern and also have many uses, the c-beam is still used for many kinds of construction projects around the world.
In the 1990s, cellular beams were invented. They eventually replaced many uses for castellated beams, though they are still used for over a fifth of the long-span construction projects in the UK and beyond!
One of the reasons that both castellated and cellular beams are prominent once again is Design Guide 31. This is a publication by the American Institute of Steel Construction that provides guidance on best practices in utilizing c-beams for various construction projects. One of these design guides focused on the different uses of castellated and cellular beams.
This design guide wasn't just created to provide ideas, though. It also provides in-depth information on how architects can fully comply with the 2016 Specification for Structural Steel Building. Before this, architects and engineers alike struggled with how to balance creative uses of these beams with the stringent compliance standards.
While there are many design similarities, there are also some striking differences between castellated and cellular beams. And each kind of beam provides its own unique sets of advantages dependent on your particular construction needs.
The castellated beams are filled with pseudo-hexagonal holes while the cellular beams focus on circular holes. For castellated beams, the holes have size limitations, which means beams may require modification to accommodate larger services. The different hole sizes and fabrication process for cellular beams provide some advantages over the earlier processes.
As we said, c-beams have been a major component in architectural design since the second half of the twentieth century, and we're confident they will still be an architectural foundation throughout the entirety of the twenty-first century.
Ultimately, c-beams are exactly what they say on the package. They are light, strong, and cheap, all while providing the simplicity, flexibility, and affordability that engineers demand. When you've got big dreams for your future buildings, you'll definitely want to hold them up with castellated or cellular beams!
Cellular beams can be manufactured in straight or bent form, and usually form part of the roof or floor support structure. Each beam has a number of cells or apertures / holes cut into the section at intervals depending on the design. The holes both reduce weight and provide convenient access for cabling and pipework in addition to sometimes being used as a design feature.
Traditional castellated cellular beams that are characterised by the distinctive hexagonal shape of the openings have been superseded by the modern form of cellular beam. Using the latest design software and profiling techniques allows the overall beam depth, cell diameter and spacing to be specified to best suit the application, including varying all aspects across the span of the beam. These cells can be specified to enable the integration of electrical and data cabling, heating, AC and ventilation systems, without intruding into the space below the beam. Air conditioning ducts and wires can be passed directly through the holes in the beam, allowing space saving throughout the structure. 2b1af7f3a8