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The benefit of having custom lengths sped up installation and also reduced wastage. Approximately 10,000 custom made studs were used to complete the project. Rondo also provided products used for internal lining and ceilings. During the construction stage supplying products to the site at the correct time for crane lifts was essential to the success of the project. Rondo and CSR worked in conjunction with Cree8 to ensure this happened by conducting regular site visits.

Currently, Quest is on an aggressive expansion drive throughout Australia, with seven projects to be completed over the next 12 months. Specifically, the freshly completed Quest on Franklin in Central Adelaide of which, Rondo has provided over 200,000l/m worth of product. Working alongside Kyren Group, Ceiling Express and Cheesman Architects, Rondo delivered frequent technical design support, as well as stock level forecasting which was imperative to control the crane lifts.

Rondo supported Maxcon Pty Ltd through contractor L&Y Commercial for this project incorporating two 26 and 36 story residential towers of 551 apartments, an Art Series Hotel with 90 rooms, retail spaces and serviced offices. Due to the large-scale nature of the build, our customer was very satisfied with Rondo’s ability to provide quick turnaround times for crane lifts as well as our efficient and effective operation of installation and delivery of goods on site, on time.

The Gateway building In Sydney’s Circular Quay is Australia’s first office tower to use fully integrated touchless 3D fingerprint scanning to allow authorised office workers and guests into the building. The building’s new entrance involves a complex integration of security and technology experts, including Boon Edam, Schindler Lifts, Honeywell and IDEMIA (the manufacturers of MorphoWave fingerprint scanning technology). The solution had to work seamlessly to enhance the user experience and building security for tenants and visitors at the 46-storey landmark building in Sydney’s CBD, owned by Dexus Wholesale Property Fund. Boon Edam delivered the entrance security solution, with Lifeline Speedlane Swing speed gates that are the slimmest in the market, which added to the aesthetics, and helped with design considerations within the width of the lift lobbies. Rising Demand by Tenants for Increased Protection The upgrade project required an entrance security system that incorporated sophisticated security yet kept an aesthetically pleasing and unobtrusive lobby. The ideal solution was found by integrating Boon Edam speed gates, MorphoWave fingerprint scanners mounted on a coordinating pedestal (the Lifeline Boost), Schindler Lift destination control and Honeywell access control technology. This was a response to increasing demands by building occupants to improve the entry security measures to better cater for the protection of employees, visitors and valuable data. A Complex, yet Perfect Orchestration Gateway’s access solution includes a bank of sleek and stylish security speed gates (Boon Edam’s Lifeline Speedlane Swing), which are seamlessly integrated with touchless and intelligent elevator destination control (Schindler Port’s PORT 4 mini) and security access via a biometric fingerprint scanning (IDEMIA’s MorphoWave) – all at one point, enabling quick, accurate and seamless entry to secured areas. These technologies are all controlled by Honeywell’s access control system. Mr Stephen Hodge, Senior Project Manager, Dexus added that “with so many stakeholders, and a strong need for reliability and quality, it was important that everyone knew the goals of the project and worked well together. I’m pleased to say that it was like a perfect jigsaw and everything came together smoothly.” “What was important to Dexus is that we were pushing the boundaries to create better experiences, but we’re only doing so with proven products. Boon Edam’s speed gates have been installed globally and locally, and this gave us added confidence that they were the right product for this forward-looking project,” he said.

Nestled in the craggy splendours of New South Wales’ Snowy Mountains region, the stunning home innovatively employs every advantage of Schuco’s environmentally sustainable window and door suites. Henry and Kate Lance of Lance Workshop Architecture expands on Schuco’s key role in the project’s myriad standout features. While there were logistical challenges with installing the windows, they were all overcome. To make sure everything went according to plan when installing those hefty Schuco units, spider cranes were used on this challenging site to safely lift and install some of the larger window units securely into place.

Collaboration Architect: PB&A ArchitectsBuilder: Ganellen ConstructionPrecaster: ConcretecDeveloper: Young & PartnersMaterial & ApplicationWe created and applied various tones of ECOTONE Matt and ECOTONE Sharp to grey brick moulded precast concrete to replicate natural brickwork. Application completed within the Concretec precast yard with final finishing onsiteOutcomeAll ECOTONE colours were customised in consultation with the client to deliver a realistic aesthetic in line with the architect’s vision.TestimonialThanks for the really great job your team have done on the project. It looks bloody fantastic.The detail and effort you have put into the brick authenticity really lifts the entire project above where even we had hoped it would be. We are extremely pleased with the result, and I hope we get to work again on a future projectPeter Allison, PB&A Architects

The Burj Khalifa – formerly the Burj Dubai – is a legendary building that can only be described in superlatives. At 828 metres high, it is the tallest building in the world. The Burj Khalifa has 160 floors, more than any building in the world. The building also has the highest floor, the highest façade made of aluminium and glass, the highest nightclub and the highest restaurant, the highest service lift and the lift with the longest travel distance. Finally, the building has the highest positioned revolving doors ever installed in a façade worldwide. In less than 30 years, Dubai has become the leading city in the Middle East and is known for its architectural and technical excellence. The Burj Khalifa has become the symbol of this progress. The Burj Khalifa also takes the title of the highest structure in the world back to the Middle East; the Great Pyramid of Giza used to hold the title 4 millennia ago. International Collaboration The tower was designed by architectural firm Skidmore, Owings & Merril, known for their designs for the Willis Tower (formerly the Sears Tower) and the new One World Trade Center in New York. The three-pronged design is based on the spider lily desert flower and consists of three elements around a central core, with the elements spiralling upwards. It can rightly be called an international project: the construction team consisted of Samsung Engineering & Construction employees from South Korea in collaboration with Besix from Belgium and Arabtec from the United Arab Emirates. The UK consultancy Hyder Consulting was responsible for overseeing construction of the building. In total, companies from more than 30 different countries contributed to the construction of the Burj Khalifa. A Windy Challenge The wind is quite a challenge when building a skyscraper of this size. Without additional measures, the top of the building would move so much from side to side due to the wind that people would become seasick. Dubai is also regularly tested by the shamals: sandstorms that can last for days. As the outer façade of the Burj Khalifa contains an enormous amount of glass, these weather conditions presented a considerable challenge. The three-part design proved to be the solution because the spiral floors break the wind currents around the building, resulting in a stable structure. The World's Highest Revolving Doors Skidmore, Owings & Merril's design includes an observation platform on the 124th floor of the building. Two glass revolving doors provide access to this room. At 442 metres above the ground, these are the highest positioned revolving doors ever installed in the façade of a building. The revolving doors must also be able to withstand an extremely high wind load of at least 3000 Pascal, which corresponds to an F3 class tornado. The Burj Khalifa required two automatic revolving doors with a diameter of 3,000 mm and a total height of 2,700 mm; the cover could only be 300 mm high with the motor installed. Generally speaking, a revolving door with these specifications would only be able to withstand wind loads of up to 689 Pascal. It was clear, then, that not every revolving door manufacturer could supply an entrance that met these requirements. Challenge Accepted Koninklijke Boon Edam was one of only two companies invited to devise a system for this challenge. There were two main problems that had to be solved: the round sides of the revolving door had to be strong enough to resist the wind, and the door set had to be properly fixed so the door wings could not be blown off during a storm. Boon Edam worked closely with Mace, the Hyder Consulting Group, Samsung Engineering and Construction and Turner Construction, the subcontractor, to develop a system that met all these requirements. During the first phase of the process, the second company invited to tender had to give up because their design did not meet the challenging conditions on the 124th floor. Boon Edam persisted in its efforts, and after conducting various wind load and glass tests, it became possible to adapt the construction of the Tourniket to the requirements of the Burj Dubai. A Tornado-Proof Revolving Door at the Burj Khalifa Our proposal for the Burj Khalifa consisted of a Tourniket with specially reinforced door frames twice the width and thickness of a normal revolving door. These were securely anchored with special bolts under the floor to guarantee the structure's rigidity. Although most revolving doors are installed on the top of the subfloor, this door was installed under the top finish layer of the concrete floor. To guarantee the stability of the door set, an extra-thick steel frame was added to the structure. This allows the door wings to easily withstand the wind pressure. Expansion on the 148th Floor in 2014 Boon Edam installed the same specially designed Tourniket revolving door on the 148th floor as on the 124th floor. However, the new project brought an extra challenge: transporting all of the materials from the basement of the building to the 148th floor. First, the materials had to be transported in one lift to the 111th floor. They were then transferred to a second lift, from where everything had to be moved manually from the 149th floor to the 148th floor, to the door's location. Special Projects Based on Standard Solutions The revolving doors we created for the Burj Khalifa were an extreme challenge. The experience and expertise of our technicians combined with the tried and tested technology of the Tourniket enabled us to develop a successful solution. Both revolving doors are now used daily and give visitors a spectacular view of Dubai. The glass design beautifully complements the modern façade of the observation platform and puts Dubai's beautiful skyline in the spotlight.

SAS International bespoke metalwork comprising of a striking waveform shaped ceiling was designed by architects Arup Associates to feature in the construction of Ropemaker Place, London EC2 for British Land. Simon Anson, architect at Arup Associates comments; “The purpose of the ceiling was to provide the 10.5m tall entrance foyer with an acoustic performance, and create a lighting source providing both uplight and downlight. The illuminated ceiling provides the entrance foyer with visual impact from views of City Point Plaza, Ropemaker Street and The City.” Simon Anson continues, “The appearance of the ceiling is that of a series of illuminated vaulted waves flowing into the interior, the volume of the space perceptually expanded by the uplit waveform surfaces. The vaulted ceiling with its flowing contours provides a visually stunning focal point as well as a practical solution to the acoustic requirements of the interior of the building.” Specialist bespoke wave ceilings were installed in the atrium, main reception area, lift lobbies and main external canopy. The waveform panel, although elegant in appearance, had to have the required strength to support the light fitting. The extra weight posed a significant design challenge of how to integrate and support the light fitting into the waveform panel. The complex design required all fixings to be concealed, as a large proportion of the face and rear of the waveform tiles are visible. In the design development and installation of the system, Arup Associates worked closely with SAS International and the specified lighting manufacturer, Zumtobel, to ensure the panels integrated seamlessly with the luminaires to produce the optimum installation.

The Farr Institute in Edinburgh is a collaboration between six Scottish Universities and the NHS National Services Scotland. They aim to place the country as a global leader in health informatics research whilst improving the health of the Scottish population. 30,000 sq. ft. has been fitted out to accommodate Bio Incubator laboratories and offices together with meeting, conference and dining facilities. The remainder of the building will accommodate laboratories and offices for life science research. SAS International’s acoustic baffles were specified to meet acoustic demand and make the most of the high ceilings and breathable space. The colours, baffle layout and service integration were carefully co-ordinated to the brief. SAS130 and SAS330 were specified and installed in the central core. Both systems offer quick and easy access to otherwise hidden mechanical and electrical systems. With SAS130, tiles can be lifted out to gain access to the ceiling void. SAS330’s hinge notch allows tiles to be hung vertically from C-Profiles, providing unobstructed access to the ceiling void. Ray Kwiecinski at Michael Laird Architects gave the below quote on working with SAS International; “MLA has specified a variety of SAS International’s lay-in grid ceiling systems over the years and we have always been extremely satisfied with the finished product. At the Farr Institute however, we decided to create a feature of the structural soffits and the M&E services and, by careful coordination of these services, the steel beams… [With] the SAS Baffle System and SAS Raft System 600, we were able to create an open, collaborative and exciting office environment whilst maintaining a high degree of sound absorbency. Our Client is delighted with the results as are we.” The Institute’s independent research will support innovation in the public sector, leading to advances in preventative medicine, improvements in NHS care and better development of commercial drugs and diagnostics.