"acoustic"

The Glucksman Library at the University of Limerick is one of the biggest campus libraries in Ireland and one of the most digitally advanced in the world. The €30m project includes a 7,600sqm extension and new facilities that offer students advanced computing, collaboration and communication spaces. Acoustic ceilings from Rockfon® are fitted throughout and play a pivotal role in helping the university realise its vision.

Tudor House was opened as the offices for Hatfield Rural District Council by the Marquess of Salisbury in 1930. A grand old building, it was built in a Georgian style with a host of period features.When its purpose as a public administration building was over, a proposal for a conversion (material change of use) into apartments was put forward by Lioncrest. Whilst not a listed building, they proposed to retain all of the period features and, where time had taken its toll on the building fabric, restore and renovate the brickwork and stonework back to its former glory.Permission has been given to convert the offices into seven new luxury apartments comprising of four two bedroom apartments and three one bed apartments. The largest apartment was constructed in the roof space which entailed reconstructing the existing roof incorporating two large dormer windows and five roof lights. The building includes a large basement which was converted into stores for the occupants and for each of the apartments to have an allocated car parking space.Lioncrest consulted with Hush Acoustics at the design stage of this development for soundproofing advice and assistance with the design, specification and supply of the materials needed.There were a number of design issues to take into account due to the history of the building and the period features. Our soundproofing experts worked closely with Lioncrest to develop the most economical and convenient acoustic system to achieve the high results sought. The detailed and careful installation of the Hush materials allowed some fantastic sound reducing results giving the owners of the apartments a very good standard of living.A variety of products were combined to achieve the necessary sound reduction throughout the building’s separating floors, ceilings and walls. These included Hush Panel Cem 28, Hush Slab 100 Sound Absorber, Hush Seal 20 perimeter strip, Hush Bond Panel Adhesive, Hush MF Ceiling System and Hush Acoustic Hangers.Through detailed planning from Lioncrest with regard to the schedule, Hush Acoustics were able to deliver all acoustic materials to site ensuring that the deadline for completion was met. 

The project at 83 East Street involved converting an existing office facility into 16 new flats.Soundis was tasked by the main contractor, Innovate Space, to supply an acoustic flooring system in order to provide a comfortable atmosphere for residents to live in and to comply with Approved Document E of Building Regulations.After examining the project, we recommended two different flooring options. The main contractor opted for the option that resulted in a faster installation time.Soundis supplied and our installation partner UK Acoustic Systems installed a Soundis dry screed acoustic flooring which was a high quality, interlocking flooring system using gypsum fibreboard technology, in order to provide a solution for soundproofing difficulties, effectively and efficiently.

Optimising acoustic comfort within radiology facility, LondonHush Acoustics transformed the acoustic environment within a radiology facility where staff and clients experiencing noise nuisance within both a boardroom and video conferencing room, which was noticeably affecting speech clarity.Renowned as specialist consultants throughout the UK, Australia and further afield, offering 24-hour radiology reporting, Everlight Radiology offers urgent after hours and daytime consultant radiologists to hospitals throughout the world. Hence, it was imperative that their rooms were treated quickly in order for the practice to continue with their duty of care and excellent service.After considering printed acoustic boards from another supplier, which would have offered Class C absorption, Everlight’s chief executive officer contacted Hush to gain more specialist advice on sound absorption.Upon a visit to the Everlight Office, we found the rooms to be suffering from very high levels of reverberation and echo noise. Through our professional and technical advice, along with carrying out an acoustic assessment, we presented the client with a recommended solution based around Hush Absorber Panels 50 & 50A panels. The reason for including the Hush Absorber 50A panel in the specification was because it was imperative for the ceilings to be treated in order to get the sound result that our client was anticipating.Faced with a vast array of asymmetrical ventilation ducts and lights on the ceilings in the rooms in question, additional consideration was needed regarding the placement of the acoustic panels. A plan was drawn up to give possible layout options, which were agreed by the client.Unlike the client’s initial consideration prior to contacting Hush, Hush Absorber Panels are Class A absorbers, made from fabric wrapped 50mm thick acoustic foam. They have built in support frames to allow for bracket fixing, to provide an air void behind the absorber for enhanced acoustic performance. Class A absorption is of the highest level, with Class E being the lowest and this scale ensures simple comparison between acoustic products, which is important when choosing the right product for maximum impact on sound reduction and speech clarity.Included in the client’s brief was a request for particular panels to be printed. The client wanted to incorporate their brand logo and hero statements, intended to remind their clients and staff members using the room of their key messaging and values. The pictures supplied to Hush were designed in-house and delivered in high resolution which ensured an outstanding result.The client expressed interest in having larger boards for the video conferencing room to the bespoke sizing of 2050 x 1300 x 50mm. These panels were made to order, and provided in colours Chrome and Smoke, which were then organised in a checked pattern on the ceiling. Hush 50A Absorber Panels were installed using suspension packs, which allows for the air void behind, whereas the Hush Absorber 50 Panels were installed using the Hush Absorber Adhesive, making them clean and easy to install.The client was delighted with the finished result, not only in terms of practically and the acoustic improvements but aesthetically too. The colours chosen along with the custom printing reflects the business looking smart, clean and contemporary and resolves the reverberation issues that they were originally facing.

Featuring bespoke sizing, design, easy installation, and use of sustainable materials, the Acoura ceiling system by Soundtect offers a highly customisable acoustic solution that can elevate your project to new heights of comfort and style.City workspace projectFor this workspace redesign, HOP Interiors sought a solution to the challenges of noise control in an expansive open-plan environment.  Leveraging Acoura's capabilities, strategic placement of the acoustic ceiling panels effectively transformed the workspace into a hub of productivity. Zoned working areas, delineated by Acoura's sleek design, provided employees with the peace and quiet needed to excel in their tasks while maintaining a collaborative atmosphere.With a clever bespoke and unique carrier system, the Acoura baffles can be easily removed and reinstalled, again and again, for easy access to the ceiling mechanical and electrical services when needed, simply and quickly.With a large range of Freestyle colour options and wood-effect finishes, Acoura offers designers a wealth of aesthetic possibilities. From bold statements to subtle accents, the choice is yours, with the added flexibility to match any wood finish and complement existing design schemes.SustainabilityLike all Soundtect products, Acoura is crafted from third-generation recycled PET. By utilising recycled materials, Acoura not only reduces waste but also minimises the demand for new resources, contributing to a more sustainable future.Soundtec thas zero CO2 emissions and zero water emissions. Utilising solar power for its factory, the company has earned several awards for its contributions to the environment, especially as the product's core material comprises post-consumer plastic with low VOC content.The Acoura sustainable acoustic ceiling not only delivers a truly bespoke, unique solution to reverberation but also a fabulous and inspiring alternative to heavy wooden beams with no impact on the environment.

Hinchley Wood School in Esher, Surrey is a mixed comprehensive academy, providing education for 11-18-year olds. They tasked Hush with a project to improve acoustic comfort in their sports hall following the success of a previous project to install Hush Absorber Panels within their canteen in 2016.Mike Robeson, Director of Finance and resources at the school, contacted us regarding their purpose-built Sports Hall in which they were experiencing severe reverberation issues. The Sports Hall has been in use for many years to carry out PE lessons and other sporting activities, along with being used as an Examination Hall.When being used for exams, the school were having to temporarily lay a carpet on the floor to dampen the sounds within the hall, hoping to create a calming and relaxing atmosphere with minimal echoes. However, this was unsatisfactory, and they sought an effective long term solution.When conducted a site visit which enabled us to measure the Sports Hall to be 8.5m in height, 27m in length and 18 m wide. The ceiling area features metal trunking around it and measures 486 sq. m in total. We calculated that 230.4 sq. m would need to be acoustically treated.In order to effectively treat the reverberation issues within the area, we specified 192x 50mm Hush Absorber panels to make the hall acoustically fit for purpose and they would need to be directly bonded to the metal deck.The panels that we supplied the school were from our new Polysorb range, in which the product itself is made from polyester as opposed to foam, giving equally excellent acoustic results. We also supplied these panels with a hard face material, to be damage protected from any equipment which may make its way up to the ceiling.The Polysorb panels are manufactured from 100% recyclable Polyester, in which a minimum of 45% is from post consumer waste PET (Plastic Bottles). The panels have been designed for exceptional sound absorption qualities, whilst being light-weight, impact resistant and durable. These panels can also be cut to any required size and finished in your chosen design.We allowed 5 working days to be able to fit the panels and were able to finish within 4. Whilst installing them, we also rescued 12 footballs and a whole host of shuttlecocks from the ceiling area!We are pleased to have been able to help the school with their reverberation issues and to make a positive impact on the pupils learning, as well as making for a more appropriate and less noisy exam hall.

Harbour Light Assisted Living CIC housing association approached Hush Acoustics to upgrade the floor within one of its flats to offer a higher level of soundproofing in line with the specific requirements of one of its tenants.The housing association, which specialises in providing bespoke accommodation and services to assist people with disabilities to fulfil their responsibilities as tenants and help them live an independent life, sought to improve the acoustic performance of a separating floor in the flat for a new resident. The individual suffered from an Autistic Spectrum Condition (ASC), also referred to as Autism Spectrum Disorder (ASD), which meant any flooring solution had to be appropriate for their needs, not only to reduce both impact and airborne ‘noise nuisance’ encroaching to the flat below, but also to ensure the final floor finish could be fully bonded to the acoustic substrate. The potential noise issues were regarded as higher than typical domestic noise which meant a more robust specification was required.The solution was provided by Hush Mat 15 with Hush Ply 28 overlaid. This provided the required mass, flexibility and isolation, as well as a robust surface to allow the floor covering to be directly bonded, ensuring it could not be lifted.

This exciting project at Old Granada Studios, Manchester will the see the existing office building refurbished and fitted out into the new hotel, complete with a vertical extension to form an outdoor swimming pool and roof-top bar area on the eighth and ninth floors. An additional two-story extension to the side of the main building will form a new restaurant and additional rooms.Old Granada Studios is a true Manchester landmark; a building brimming with heritage and history. The re-invention of this famous building will create a place where people come together to work, stay and play. It will be a new cultural destination for the city. It will be a culture of cool places, a world-renowned hotel, studios, workspace, food and drink.The old Granada Studios is anchored by the internationally renowned Soho House Group with their stylish members’ club, restaurant, bar and the new concept Mollie’s Motel. The iconic studios have also been modernised and activated by Manchester Studios with the best production and broadcast facilities in Manchester, they are once again the city’s leading creativity complex for TV, film, music and digital content.Soundis supplied of an area approximately 7,000 sq meters, across 9 different levels which consisted of various flooring build ups.  Systems included, the Soundis Cradle & Batten Acoustic Flooring System to help improve both airborne and impact performance, this system is also compliant with Robust Details FFT2. Overlayed were the Soundis Dry Screed Panels; applied to level the structural deck to minimum of SR2 Standards. Another flooring system we supplied at this project was the Soundis CineSystem Ultra Floor offering many additional acoustic benefits. This system also offers the greatest strength, whilst the large dead load that the floated slab provides, ensures minimal movement under the addition of any live loading.

Soundis were required to supply and install the Absorb-R GypLine αw acoustic plaster to the underside of the central staircase and to various meeting rooms around the BSKYB TV Meeting Centre.Offering unrivalled levels of sound absorption...The project presented challenges, programme constraints and critical interfaces with Mechanical & Electrical trades all of which were dealt with by the site and installations team in a professional manner.The Absorb-R GypLine αw finish offers unrivalled levels of sound absorption but also ensures walls and ceilings are clear of panels and visible acoustic solutions, providing a virtually seamless monolithic surface for walls and ceilings in a choice of RAL colours.This was ideal for the BSKYB project team as it complied with all of their requirements and expectations. Soundis along with our installation partner UK Acoustic Systems have completed numerous similar projects using the Soundis Absorb-R GypLine αw Acoustic Plaster.The Absorb-R GypLine aw system achieves the “best” aesthetic finish possible with a range of finishes available. Absorb-R GypLine αw is now being specified and utilised in a large number of office, hotel and leisure projects throughout the UK.

Luxurious in design and soundThe projectCreating an imaginative and unique workplace can be a tough task often limited by the space you are working with. That was no different for the renovations undertaken at Argyll’s, previously known as LEO, ever expanding precinct. With their company expanding rapidly, they secured the top two floors of Park House—a modern mixed-use building off Oxford Street, London. Specialising in luxury executive serviced offices, they needed their new space to appeal to a high-end audience expecting elegant, sophisticated furnishings and facilities. Working with Area Design & Build, we were brought in to help bring their plans to life. With our experience of working on previous projects with Argyll, we were prepared for the client’s keen desire to think outside the box. The open, spacious layout takes full advantage of the dramatic double-height curved walls and roof, with expanses of glazing that flood the space with light. Having such a unique space to work with, Argyll wanted to create a ‘fantastic journey’ for the inhabitants, requiring acoustic solutions throughout.The solutionThe selected acoustic products used were: Horizon™ panels – Manufactured in an organic shape to work with the designer’s concept based on biophilic design. Frontier™ 24 mm baffles – Cut in a wave formation to provide acoustic absorption to a corridor space while creating a dynamic walkway to further meeting rooms. Through the use of these acoustic solutions we helped them to create an innovative design with the options best fit to not just the design brief, but also their specific work environment. These designs combine character, style and elegance with a welcoming ambience provided by modern but comfortable furniture and generous biophilic touches. Park House is a worthy addition to Argyll’s growing portfolio of attractive, high-quality service offices.

The ChallengeLocated in a densely populated area of London, the Balham branch of Waitrose had a responsibility to minimise the impact of its operations on the surrounding neighbourhood. Supermarkets are deceptively noisy, a solution was required in order to maintain low noise levels within the proximity of the store.Closely monitoring store activity, Waitrose identified that deliveries risked causing a disturbance to nearby residents – because metal cages used to carry stock generated high levels of noise when rolling across the uneven concrete floor, particularly when empty.To reduce noise levels during delivery times, Waitrose needed a durable acoustic flooring solution that would directly attenuate sound and withstand the impact of the cages. This was where CMS Danskin were able to step in and provide a valuable and reliable solution.The SolutionAfter reviewing the performance requirements of the store, CMS Acoustics recommended and installed High Impact Mat. Manufactured from a non-reflective and slip resistant material which exceeds the highest safety standards, CMS High Impact Mat reduces excess sound by cushioning and absorbing impact sound.Composed of reclaimed rubber, EPDM granulate and PUR binder, CMS High Impact Mat is an environmentally friendly product available in a range of thicknesses, from 4mm to 12mm. At Waitrose, the material was specified at a thickness of 10mm.The ResultQuick and easy to install, CMS Acoustics completed the 150m2 installation of High Impact Mat in just two days. Critical to minimising disruption to store operations, CMS High Impact Mat was able to carry traffic just 24 hours after installation.Waitrose branch manager, Steve Baller, commented: “As part of our commitment to minimise disruption to our neighbours it was important to find a product that would reduce noise. CMS High Impact Mat has proven to be an excellent product, the sound levels have been reduced substantially and the floor is able to withstand the weight of loads coming into the warehouse.”

We designed and installed 3 of our MG100 movable acoustic walls to a project in London to create flexible working spaces for our client. Their chosen panel finish included a magnetic wipe board along with our PanelHush PET acoustic wall panels. The PET panels help reduce the room echo/reverberation which gives a better working environment. PanelHush PET range is a 100% recyclable acoustic panel that is manufactured from recycled PET bottles. Weuse 65% post-consumer recycled fibres and our products are 100% recyclable.The PET panels come in 12mm or 24mm thick sheets with a choice of 14 different colours to match your design need The installation of our MG100 movable acoustic wall panels gives an element of flexibility which is suddenly added to your space. Therefore, the environment can quickly be manipulated to cater for any of your flexible space needs. Whether that be for meetings or a little bit of privacy. Our MG100 Series also has a strong fire rating of up to 1 hour. We believe that not only should our products look sleek and provide a practical option, but most importantly, they should be able to be called upon in times of emergency.

In 2015, Quinn London Ltd started the refurbishment of The Market Building, in Brentford which involved the conversion of Offices to residential dwellings as a ‘Material Change of Use’ project. Soundis provided acoustic solution options for this project, in order to ensure a cost effective Value Engineering Exercise, on behalf of the Main Contractor.As the 1st floor required a deep void system due to new soil pipes and waste pipes having to be installed along the corridor within the building for kitchens and bathrooms, it was agreed to utilise Soundis Cradle & Batten System. This provided a service void for the pipes of 300mm whilst the other areas of the floor were treated with the system at 80mm FFH. The Soundis cradle & batten acoustic floor was then overlaid with a Soundis a high quality, interlocking dry screed system gypsum fibreboard.The Soundis cradle & batten floor system has been installed on the existing concrete and existing timber structural floors to provide a level floor over the un-even sub-deck. The service void provided by Soundis cradle & batten system can be used for other flooring applications, such as underfloor heating.Our Cradle and Risers are manufactured from 100% recycled materials assisting to the sustainability targets of projects.

Hush Acoustics helped the developer of a new build apartment scheme in Surrey to deliver high quality homes which are highly insulated against the risk of flanking noise from the properties below and above.Composition Design, the architects tasked with designing the two, three-storey apartment blocks in Cranleigh, approached Hush to advise on what is a relatively common, but sometimes overlooked, issue in multi-occupancy buildings constructed using brick and block walls with timber joisted floors. In addition to ensuring the separating walls and floors were acoustically insulated to levels compliant with Approved Document E of the Building Regulations, measures were incorporated to prevent the potential for flanking noise to transmit between properties through the continuous blockwork.Flanking can be a major issue in buildings created with masonry walls and timber joisted floors because of the lightweight blocks and large voids which are characteristic of this type of construction method, particularly in walls of continuous brick and blockwork for the full height of the building.This can result in a noise issue so significant that projects of this kind are highly susceptible to sound test failures due to flanking. Hence why the architect sought specialist guidance from Hush Acoustics at an early stage.The Fairhaven development features two apartment blocks, which were constructed by Bohunone Building Contractors. One of the blocks incorporates three 2-bedroom flats, and the other provides four 2-bedroom flats and one 1-bedroom property, all designed and built with a traditional brick and tiled roof exterior to complement other properties in this established residential area.To address the flanking issue, the HD1013: Hush System 2003 acoustic floor system was used for all the separating floors within both blocks, and a wall lining was specified for the inside of any masonry walls that rise up continuously to the full height of the building. The wall lining consisted of the Hush Bar Deep resilient bars, Hush Slab 25 acoustic insulation slabs and a single layer of 15mm SoundBloc acoustic plasterboard. It was applied to all of the separating walls of the first floor properties, mostly single sided but double sided on those that are most susceptible to flanking, as well as the walls between any flats and the communal stairway.The HD1013 acoustic floor system consists of a floating floor created using Hush Panel 28, a 19mm plasterboard plank and Hush Slab 100 absorbers within the voids between the timber joists. Hush Bar resilient bars are then attached to the joists to provide acoustic separation, to which two layers of plasterboard are then screwed to form the ceilings – one being a layer of 15mm Fireline and the other a 12.5mm SoundBloc.Both the wall and floor acoustic systems were sealed at the perimeters to further prevent flanking noise. Once approved by the architect, the systems were installed by the building contractor under supervision from Hush Acoustics to ensure all the components and materials were fitted in accordance with its guidelines. The performance was confirmed by the pre-completion sound test. It recorded airborne sound levels as high as 60 dB DnT,w+Ctr for the party walls, demonstrating far higher acoustic performance than the minimum of 45 dB required under Approved Document E. The party floors were found to perform equally well, recording levels as low as 49 dB DnT,w+Ctr for airborne sound and 51 dB L'nT,w for impact sound. The latter also represents a significant improvement compared to the minimum compliance level of 62dB or lower stipulated by the Building Regulations.As the Fairhaven project demonstrates, early design consultation is key to addressing the potential for flanking noise and reducing the risk of sound test failures further down the line. If flanking is not considered and treated in the floor/ceiling or wall design and the building fails a sound test, the cost and disruption associated with remedial work could be extremely high.

Premium finishes and designs with broad appealThe projectCatherine Birch of Birch Freeman Design and Nikki Rees of Nikki Rees Interior Design were engaged to design two turn-key offices on King William Street. The sixth-floor commercial spaces, situated prominently along the Monument Station walkway, were earmarked as an ideal central London location suitable for any business.The challenge Understanding that there were no specific incoming tenants to design for was crucial to Catherine and Nikki’s approach to the brief. “It was important to create an interior that would appeal to a wide range of future clients without appearing bland and overly neutral,” explained Catherine.The solutionHaving known each other for 25 years, Catherine and Nikki combined their shared love of texture and colour to collaborate and develop a design befitting the building’s premier location. Across both spaces’ flowing, open-plan layout, they combined a light, modern colour palette with rich, premium finishes to create thoughtful points of interest. In the reception areas, Catherine and Nikki selected a lacquered joinery framework and complementary Autex Acoustics® Groove panels. Available in over 20 colours with a selection of suggested and bespoke design options, the team opted for a fluted Groove style in Parthenon, a natural earthy fawn tone.The resultAs well as improving the zone’s acoustic comfort, the Groove panels, when combined with the joinery, created a soft, feature wall effect. “The moulding helped to give the Groove panels an art installation quality, “shared Catherine. “Groove’s depth and softness created a warm and inviting first impression of the spaces whilst maintaining a subtlety.” Leveraging their design expertise, Catherine and Nikki effortlessly shaped two blank canvases into welcoming spaces equipped to host a variety of occupants. “The spaces were snapped up quickly by incoming tenants, which made for a very satisfied client,” said Catherine on the project’s success.

When American architect, Louis Sullivan, in 1896, said, “Form ever follows function” he probably hadn’t foreseen the creation of the Statutory List of Buildings of Special Architectural or Historic Interest that would have its origins in the devastation left in the wake of the Second World War.The ChallengeThe preservation of old buildings is challenging enough but additional issues arise when it comes to refurbishments and renovations, particularly if there is a material change of use. Suddenly, a building that was created for one purpose is given another, sometimes radically different, purpose. The form can’t follow the function if the function is allocated post-construction. Significant modifications can help align an old building with its new function but, in the case of Grade II listed buildings, for example, the interior can’t be fundamentally changed and function is forced to compromise.Even when there is no significant change of use, modern building regulations demand performance standards that didn’t even exist at the time that buildings currently being renovated were originally envisioned and created. The requirements of Part E of the Building Regulations, governing soundproofing between floors of a building, are relatively easy to shoehorn into a renovation project as these tend to be concealed beneath floor finishes and screeds. Problems with reverberation are far more difficult to tackle and even though there is very little regulation surrounding this issue, BB93 of the Building Regulations, governing reverberation levels in schools, tends to be employed as an effective benchmark.When reverberation levels reach a certain point, they can become more than just an irritation, with the overlap between what is currently being said and what was said a couple of seconds ago becoming genuinely disruptive. In schools, this can make it extremely difficult for children to follow what their teacher is saying. For this reason, BB93 demands a reverberation time of 0.8 seconds or less, with 0.4 seconds being seen as ideal. Reverberation time is described as the time taken for the sound pressure to fall by 60 decibels after the original sound has ceased abruptly. So, in the case of BB93, 0.8 seconds or less after a sound has been made, that sound should have decreased by 60dB. 60dB is a significant drop, the difference between a construction site with pneumatics drills and a busy department store.It is in situations like this, when form and function appear determined to have nothing to do with one another, that architects and the designers of construction materials are driven towards increasingly innovative and paradigm-shifting solutions. The stereotype of the architect who is concerned only with form and is completely disinterested in function is, thankfully, a thing of the past (if these individuals ever really existed at all). Modern architects don’t create buildings so much as living and working spaces, where physical aesthetics are neatly balanced with a host of other concerns, such as the quality of an environment’s acoustics.Although regulation sets crucial, legally-enforceable parameters, few architects need to be incentivised to aim high when it comes to a building’s acoustics.This drive towards innovation has resulted in widely differing solutions. Reflector panels and diffusers redirect sound waves or disburse them more evenly through the listening environment, reducing nuisance noise. These solutions tend to be employed in lecture halls or auditoria, where a certain amount of volume is desirable, but the quality of the sound is crucial. The most commonly employed anti-reverberation product is the sound absorption panel. These fabric covered panels are mounted on the walls of a room or suspended from the ceiling. When the sound wave enters the open cell structure or fibrous composition of the panel, it bounces around like a pinball. The friction resulting from each instance of impact is converted into low-level heat which is absorbed into the material. When the sound wave re-emerges, its energy, and consequently its ‘loudness’, is significantly diminished. This tends to be the solution of choice for classrooms and is generally considered to be the quickest and most cost-effective route to BB93 compliance.Some acoustic challenges are more demanding than others. The renovation of the Picton Reading Room, part of the £50 million redevelopment of Liverpool Central Library, being a case in point. Not only is the reading room contained within a Grade II listed building, it also boasts an elaborate coffered saucer dome. Domes are something of an acoustician’s nightmare, as they focus rather than distribute sound, exacerbating reverberation problems. All of which means a dropped pencil in the Picton Reading Room sounds like a Keith Moon drum solo. Why Cornelius Sherlock, the reading room’s architect, decided to incorporate a dome – one 100 feet in diameter and 56 feet high – into his design for a space that was intended for quiet study is a little bewildering, even if his work does predate Sullivan’s remarks by a couple of decades.Thousands of hours of work have gone into restoring the ceiling of the Picton Reading Room, with plaster, paint and gold leaf being matched as closely as possible to the original 1875 design. Given the need to be true to the form of the original, certain anti-reverberation solutions were unworkable. Reflectors, diffusers and baffles couldn’t be suspended from the ceiling, as all those thousands of hours of work would be hidden from view and the Nineteenth Century aesthetics undermined. Wall-mounted sound absorption panels were not a viable option, as there was very little wall to speak of, with three levels of solid wood bookshelves encircling the room, almost up to the beginning of the dome.Recent innovations in the area of acoustic plaster held the solution. Sound absorbent plaster has been around for some years, offering a smooth appearance which conceals a porous, granular structure similar to that found in sound absorption panels. However, until recently, the amount of sound absorption offered has always been limited to Class ‘B’ and Class ‘C’. Now, however, Class ‘A’ acoustic plaster systems are available. It was just such an acoustic plaster that CMS Danskin used for the Liverpool Central Library project.Because of the limited surface area in the Picton Reading Room, Ellie Morris, CMS Danskin’s Technical Support Coordinator, hit upon the idea of applying the acoustic plaster into the soffits beneath the balconies of the upper shelving areas. The results were a resounding (or un-resounding) success. A relatively small amount of an innovative product, cleverly applied brought a 138-year old listed building’s acoustics in line with contemporary standards and not a hint of compromise in sight.

St Gemma’s Hospice regularly host seated exercise classes, lunches and other activities in their main hall. They noticed there was a lot of echo and sound reflection within the room, this was leading to verbal communication breaking down and leaving residents feeling isolated.Hearing loss is a common issue among elderly citizens, combined with a room with poor acoustics, this issue can be amplified significantly and have a detrimental effect on their mental & physical well-being.Hear the difference the Still Note raft panels made to the acoustics in our YouTube video.It takes our brains 35% more effort to interpret information through poor audio, this can lead to a slower response to stimuli over time.Reflection is where soundwaves emitted from a source hit a solid object such as hard wood flooring or a brick wall & bounce back into the room in several directions. Large rooms with a lack of soft surfaces such as soft furnishings or carpet are especially susceptible to this phenomenon which is what St Gemma’s Hospice were experiencing.Absorptive Acoustic PanelsBy installing absorptive Still Note acoustic panels on the walls & hanging them from the roof we were able to reduce the reflection of soundwaves, completely transforming the soundscape & the room aesthetics.So what did St. Gemma’s have to say about the results?"Just wanted to say a big thanksfor getting this work over the line – the difference it has made is incredible! We had Community MDT yesterday with a full room and everyone commented on the significant improvement to the sound – people could clearly hear what was being said and the sound no longer bounces around or drifts away. The positive difference is also very noticeable when there are only a few people in the room."We have also had some super patient feedback from the Thai Chi group yesterday – “Normally I struggle and can’t hear a thing that is said, and today I heard everything – it’s brilliant”.

A leading supermarket in Leicestershire situated near a flourishing housing development came to the attention of local residents when the noise associated with the running of a major mixed retail outlet became too much by the constant flow HVG. Jacksons employed multiple solutions for this issue including - Installing a large 13.2m Acoustic gate with a 9m opening and a smaller single leaf automated swing gate with Acoustic fencing which helped to reduce noise levels from running components within the supermarket delivery area.

When CMS Danskin Acoustics Limited was engaged by Progressive Group to ensure the Shangri-La Hotel’s 42 floors in the Shard were effectively soundproofed, it wasn’t a straightforward assignment. From the very first sketches drawn on a napkin by Piano during dinner with entrepreneur and property developer Irvine Sellar, the Shard was always intended to be ‘all about the windows’, with expressive façades of angled glass reflecting sunlight and the sky, and affording 360° views of the city.Unfortunately, when the glazing is central to the design, floors can get in the way of the overall effect, and the temptation is to minimise floor heights (within Building Regulation parameters, of course). This presents a significant challenge to acoustic insulation installers. In short, the thinner the floor, the harder the soundproofing material has to work acoustically and the more physical punishment it has to endure.For approximately 70% of the floors, Progressive applied a Gyvlon liquid screed at a 40mm minimum thickness. The screed was pumped from ground level, with the largest pour in excess of 80m3 covering an area of 1,680m2. In approximately 30% of the floor areas, however, the floor screeding level could not be raised because of the existing floor-level transom in the curtain walling. This meant that there were instances of screed thicknesses of approximately 25mm in places.CMS Danskin’s Regupol E48 (REGUPOL sonus curve 8) was specified, a Robust Detail approved (E-FC-6) high-performance screed isolation material. E48 (REGUPOL sonus curve 8) was perfect for those ‘thin screed’ areas, with its maximum load bearing capacity of 3000kg/m3 (30kN/m2), combined with a mean average impact sound insulation performance of 46dB and a mean average airborne sound insulation performance of 49dB, both values well in excess of the requirements of Part E of the Building Regulations.Building Regulations aside, E48’s (REGUPOL sonus curve 8) ‘over-performance’ is crucial for a hotel as exclusive as the Shangri-La. The award-winning, globe-spanning hotel group prides itself on providing a customer-focused experience, with the emphasis very much on luxury. Intrusive noise from above or below a guest’s accommodation would almost certainly undermine those efforts. Plus, with this being a flagship project for the Shangri-La – their first hotel in Europe – ‘fit for purpose’ simply wasn’t an option.As a Robust Detail underscreed, E48 (REGUPOL sonus curve 8) has already been rigorously pre-tested to ensure it achieves a minimum performance of 5dB over and above Part E, thus eliminating the need for Pre-Completion Testing. However, CMS Danskin and Progressive, having worked together successfully on the exclusive One Hyde Park development, preferred to adopt a partnership approach, with the emphasis on planning and testing, giving absolute certainty to all parties and making full use of all the skills, expertise and experience at their disposal. To this end, Paul Absolon, CMS Danskin’s Technical Director, worked closely with Progressive’s technicians, carrying out off-site simulations and fitting trials with varying screed thicknesses. Only once both parties were satisfied with every aspect of E48’s (REGUPOL sonus curve 8) acoustic performance in a ‘real world’ situation did the installation proceed.More than 16,000m2 of E48 (REGUPOL sonus curve 8) were installed over approximately 3 months, with Progressive and CMS Danskin maintaining their close working relationship throughout.Tony Cooney, Estimating Manager at Progressive Group, said, “The completion of the screed and insulation work on the Shangri La Hotel development was a fantastic achievement and it presented a number of very challenging situations – both technical and logistical. Solutions to these challenging situations are achieved by the co-operation of all parties involved – including material suppliers. The technical assistance provided by CMS Danskin on this Shangri-La project and other prestigious contracts in the London region in recent years has been exceptional and we look forward to continuing our excellent relationship.”Said Paul Absolon, “It was a privilege working on a project as ground-breaking and culturally significant as The Shard, and it was a pleasure working with the professionals at Progressive Group again. At CMS Danskin, we like to be put to the test. The Shard certainly was a challenge and we’re proud to have met that challenge and delivered.”

ANZ’s 12th-floor office space in Canary Wharf is one of London’s most sustainable fit-outs. The project is even included in a British Council for Offices (BCO) report on Circular Economy in Offices, making our recycled SonaSpray the perfect fit.Commonly used in environmentally friendly projects, SonaSpray contributes towards many sustainable design and health certification systems including BREEAM, SKA and Living Building Challenge. SonaSpray also boasts GREENGUARD Gold Certified compliance for Indoor Air Quality to ensure that it meets the highest welfare standards.

Belonging to the hospital and the University of Medicine of Rotterdam, the Erasmus medical centre is an internationally recognized centre of excellence. As a learning centre, the building of 16 000 sqm contains a central lobby, conference rooms, learning rooms and offices, on 3 stairs. It welcomes more than 400 working or learning desks. Thank to the spectacular ceiling, the central lobby is very bright and spacious. 4500 m² of acoustic stretched ceiling has been installed to improve the sound comfort. Architect : Claus en Kaan

Efficient Approach Dramatically Reduces Turbine Noise at CCGT Power StationsTen years after it was first used at Uskmouth, this innovative approach to soundproofing that reduces insulation depth by up to 76%, is once again commissioned in France.Dangerous Levels of NoiseModern dry cooling systems offer many benefits over traditional systems in CCGT power stations, but they have the disadvantage of being a complex source of noise transmission. The turbine noise recorded coming from the dry cooling system at the Severn Power CCGT Power Station at Uskmouth was between 130dB(A) and 135dB(A). Exposure to these levels of noise, a full 50dB above The Control of Noise at Work Regulations 2005 “upper action level”, will cause both immediate and permanent damage.When acoustics and soundproofing specialist, CMS Danskin Acoustics, were brought in by SPX Cooling Technologies, designers of Uskmouth’s dry cooling system, they discovered not only high levels of noise but also that the noise generated had a very low-frequency bias, the most difficult noise spectrum to treat.Solutions for low-frequency noise issues typically involve wrapping the problem in significant quantities of acoustic insulation, with many standard solutions being as deep as 500mm to 700mm. The sheer volume of lagging required for an insulation-based approach to a project like Uskmouth, with 8,000m2 of ducting to be covered, would be expensive, time-consuming to install and prohibitively disruptive.The New Approach proven at UskmouthThe challenge of producing a soundproofing system that would be cost effective and efficient to install was taken up by CMS Danskin Acoustic’s Technical Direct Paul Absolon. CMS Danskin has a reputation for effective, high quality acoustic solutions tailored to the specific challenge, and this solution was no different.Exploring the wide range of acoustic materials from the company’s industrial acoustics range, Paul opted for a combination of materials working in concert: the unique CMS HTIB elastomeric isolation pads, constructed from a polyurethane-bound rubber granulate with excellent dampening and isolation characteristics; QuietSlab SVX3, a high-performance, mineral- fibre acoustic lagging; and WBKT Acoustic Barriers, a high-density, barium-sulphate-loaded thermoplastic polymer, which is thin, flexible and easy to work with.By using a bespoke combination of materials which each tackled specific aspects of the problem, CMS Danskin Acoustics were able to create a soundproofing solution with a construction depth of just 170mm, between 66% and 76% thinner than the 500-700mm standard solution. Disruption was minimised and material costs reduced.Once complete, the system was rigorously tested by SPX Cooling Technologies and Uskmouth’s main contractor, Siemen’s Energy. CMS Danskin Acoustics’ solution had reduced the noise generated by 39%, to just 82-83dB(A), under the 85dB “upper action level” listed in The Control of Noise at Work Regulations 2005.Peter Ullrich, project director, Siemens Energy, commented at the time:“Effectively controlling noise and reducing sound emissions was a top priority for us in the Uskmouth project. Not only was it essential that the dry cooling system satisfied all the legal acoustic obligations and regulations but just as important was that neighbouring properties were not disturbed by additional noise levels.”Repeat Success at LandivisiauTen years on, the same successful approach has been applied to the dry cooling system at the new CCGT Power Station at Landivisiau in Brittany, north-western France. Also built by Siemens, the dry cooling system was supplied by SPG Dry Cooling. In the case of Landivisiau, even greater sound reduction was required, from approximately 140dB(A) to below The Control of Noise at Work Regulations limit of 85dB(A).To meet this challenge, SPG and CMS Danskin collaborated on extensive testing at the acoustic testing laboratory of SRL Technical Services. The reductions achieved during testing as part of the specification process were some of the largest reductions in sound ever measured at SRL.Once the specification was confirmed, CMS Danskin worked with SPG to ensure that materials for the multi-layer acoustic solution were prepared and delivered efficiently so that SPG’s installers always had the correct materials on site. The installation of the acoustic soundproofing was completed in October 2021 and the power station entered commission as planned in April 2022.“CMS Danskin Acoustics Limited successfully supplied the acoustic material package for the project which was tested at SRL to give an overall lab test reduction of 68dB Rw.”Robert Hill, Project Manager, SPG Dry Cooling

The redevelopment of Gainsborough’s House in Suffolk required specialist acoustic design to isolate the structure from the vibrations of a nearby silk mill. Regupol Vibration offered a practical solution, but the project was not without its challenges, including a tight site and lockdown restrictions.The ProjectGainsborough’s House is the childhood home of the renowned 18th Century artist Thomas Gainsborough. The house and gardens, which are Grade 1 listed, were purchased by the Gainsborough’s House Society and were first opened to the public in 1961, housing a permanent collection of his work.Ambitious plans for the redevelopment of the house will transform it into a national centre for art in Suffolk, showcasing the influence of Gainsborough over other famous British landscape artists he inspired such as John Constable and JMW Turner, and acting as catalyst for regeneration of the town of Sudbury.As part of this project a new three storey wing is under construction next door to Gainsborough’s House, on the site of a former Labour Exchange. The contemporary building with a staggered roofline has been designed by architects and exhibition designers ZMMA. Complementing the existing listed buildings, which are to be upgraded, the project will create the largest gallery in Suffolk housing the widest collection of Gainsborough’s art and the art of those he inspired. The entire project is valued at £9m and construction began in the Autumn of 2019.Acoustic ChallengesFacilities in the new building will include permanent and temporary galleries, a landscape studio with panoramic views over the rooftops of the town and a new café overlooking the 18th Century garden. Whilst contemporary in appearance the extension will incorporate local materials including bricks from the historic Bulmer brickworks just outside the town, and interiors featuring famous Sudbury Silk.Sudbury has been a major silk manufacturing centre for centuries and five companies still make silk textiles in the town. Vanner’s Silk Mill, directly to the North of the site, has been producing Sudbury Silk for 250 years. However, its proximity to the new gallery is a challenge.Vibration Isolation for Art Gallery FoundationsAcoustic specialists Sandy Brown identified that the silk factory workings are a source of vibration throughout the surrounding grounds and buildings, which has the potential to interfere with the peace and tranquility of the new building.To mitigate this risk, respected engineers Eckersley O’Callaghan worked on a series of foundation design incorporating vibration isolation materials, which isolate the new structure from the surrounding ground. The successful design specified the use of Regupol Vibration Solution products, a range of isolation products which can be used to provide a resilient layer within foundations to isolate a building from structure borne vibrations.CMS Danskin Acoustics are the sole UK distributor of Regupol products. Regupol and Regufoam Vibration product ranges provide a combined 20 different grades of isolation material which can be used in a wide load range between 0.002 N/mm² and 2.5 N/mm². This wide range provides the opportunity to design efficient isolation concepts for even the most challenging vibration scenarios.The new building has a complex foundation plan with multiple stepped foundations and ground beams, producing three different regions of pressure. Each area required a different combination of material thickness and density to provide the appropriate deflection and natural frequency required. CMS Danskin Acoustics worked with the design team to develop a bespoke acoustic insulation strategy for Gainsborough’s House that was both efficient and effective.Working under Covid LockdownConstruction commenced in late 2019 with the demolition of the existing labour exchange where the new galleries were to be built. Principal contractor Thomas Sinden was ready in the spring of 2020 for the installation of the vibration insulation materials by specialist groundworks contractor T Vaughan. The narrow historic streets of Sudbury prevented the use of cranes and all materials had to be delivered by smaller vehicles.Regupol products are manufactured from recycled aircraft tyres in Germany, and the timing of the project during the first Covid lockdown couldn’t have been worse. However, CMS Danskin Acoustics retain good stock quantities and delivery of the required 1400m2 of rolls and tiles was not delayed by the suspension of travel.The design of the vibration isolation scheme called for several layers of Regupol Vibration 300, 450 and 480 in varying thicknesses, which were laid and cut over the foundation according to the insulation strategy. Each layer has staggered joints and the entire scheme is then covered with a separation membrane prior to the pouring of the floor slab.The new galleries at Gainsborough’s House are expected to open to the public in the Spring of 2022, and enjoyment of the spaces will be unaffected by the centuries old industry continuing next door.Vibration Isolation ServicesVibration Isolation is a specialist skill. The vibration team at CMS Danskin Acoustics have a unique ability to specify and supply anti-vibration and structural isolation solutions. Working with architects, contractors, acoustic consultants, developers and structural engineers, we can provide solutions that meet the requirements of all noise and vibration regulations, whether in the construction or industrial sector.We can provideEarly involvement in your projectTechnical recommendations at design stageTechnical support and submittalsOn-site support, prior, during and after installation.Project ParticipantsClient                           Gainsborough’s House SocietyArchitect                       ZMMAAcoustic Consultant       Sandy BrownStructural Engineers       Eckersley O’CallaghanMEP Engineers              Bower FullerGroundworks Contractor T Vaughan LimitedPrincipal Contractor      Thomas Sinden

The fact that power stations produce high levels of noise won’t come as much of a surprise to anyone who has spent more than a few minutes inside one. Quite how dangerous these levels of noise can be, however, might.How Loud is ‘Too Loud’?To give you an idea of the sensitivity of the human ear, the average person can hear sounds down to about 0 decibels (dB), the equivalent of a whisper or rustling leaves, and people with exceptional hearing can detect sounds as low as -15dB.It is at the other end of the scale, however, that serious problems can occur. At around 85dB, you are likely to experience discomfort. As little as eight hours of continuous exposure to this level of noise can result in permanent damage to the inner ear, which is why 85dB is the maximum allowed under the Noise at Work Regulations. At 100dB, just fifteen minutes of exposure can cause permanent damage. And at 110dB the exposure time drops to around a minute before harm is inflicted. Pain is experienced at 125dB and hearing loss can be permanent. At 140dB or above not only is the damage permanent, it is also immediate.The Noise at Work Regulations stipulate that an ‘employer shall ensure that risk from the exposure to noise is either eliminated at source or, where this is not reasonably practicable, reduced to as low a level as is reasonably practicable.” And that “if any employee is likely to be exposed to noise at or above an upper exposure action value, the employer shall reduce exposure to as low a level as is reasonably practicable by establishing and implementing a programme of organisational and technical measures, excluding the provision of personal hearing protectors, which is appropriate to the activity.” In other words, an employer is expected to do everything they can, within reason, to protect their employees from the harmful effects of noise. And, no, it isn’t enough to simply supply a pair of ear-defenders.Noise-Induced Hearing LossThe damage caused by these dangerous levels of noise is referred to as Noise-Induced Hearing Loss or NIHL. NIHL can be caused by a single exposure to a very loud sound or by repeated exposure to even relatively low levels of noise over a long time span. In fact, according to research carried out by Xiaoming Zhou from the East China Normal University in Shanghai, even seemingly innocuous sounds, such as the whirr of a desk fan, can cause damage if exposure is consistent and long-term.To understand how NIHL occurs, it’s necessary to understand how hearing works.The generally accepted view is that sound waves strike the eardrum and these vibrations are translated into coherent information by the brain. It is slightly more complex than that. Sound waves do, indeed, strike the eardrum, causing the eardrum to vibrate. These vibrations are then transmitted through the ossicles (the small bones of the middle ear) to the cochlea, a spiral-shaped chamber filled with fluid and lined with tiny hair cells called stereocilia. The vibrations cause the fluid to move which, in turn, causes the stereocilia to move. The stereocilia’s movements generate neural signals with are picked up by the auditory nerve which ‘forwards’ these signals onto the brain where they are interpreted as intelligible sounds human speech, music, the beep of car horn etc.Exposure to the harmful levels of noise mentioned above can damage the stereocilia, breaking them or flattening them so they no longer vibrate as effectively or so they no longer vibrate at all. The result: impaired hearing or, in extreme cases, total hearing loss.The noise recorded coming from the dry cooling system at the Severn Power CCGT Power Station at Uskmouth B was between 130dB(A) and 135dB(A), a full 50dB above Noise at Work Regulations’ acceptable levels. Regarding dB(A), the human ear does not hear all frequencies with the same intensity. It is most sensitive to sounds in the 500Hz-8kHz range. Above and below this range the ear becomes progressively less sensitive. To compensate for this, sound level meters incorporate electronic filtering to correspond to the varying sensitivities of the ear. This filtering is called A-weighting and readings obtained with this weighting are referred to as A-weighted and signified as dB(A).The Wrong Kind of NoiseAlthough it was identified that the dry cooling system from SPX Cooling Technologies was generating these dangerous and unacceptable levels of noise, it wasn’t the cooling system that was creating the noise. In fact, it was the turbines that were the source of the noise. The steam roaring from the turbines at incredibly high speeds enters the main 5.5m steam ducts, passes up five risers and is channeled into the steam distribution manifolds. Not only does the steam enter the dry cooling system, the accompanying noise does, too. You might think that the 8mm thick steel from which the ducts are constructed would go some way to containing the din. Unfortunately, steel is extremely adept at transmitting noise and is, in many respects, the acoustician’s worst enemy.To make matters worse, when acoustics and soundproofing specialists, CMS Danskin Acoustics, were brought in by SPX and Uskmouth’s main contractors, Siemens, they discovered not only high levels of noise but also that the noise generated had a very low-frequency bias. Low-frequency noise is the most difficult to treat from a soundproofing perspective due to the excessive length of the wave cycle. This is one of the reasons people in apartments, terraced houses and semi-detached homes will often complain of the problems of bass noises intruding from neighbouring properties, as the walls and floors filter out the higher frequencies whilst the lower frequencies manage to penetrate. This can seem a little counterintuitive, as we imagine higher frequency noise to be more piercing. Their short wave-cycle, however, means they can be blocked out with relatively thin soundproofing materials.The low-frequency nature of the noise also meant that this wasn’t just a Noise at Work Regulations problem. Low-frequency noise can be particularly problematic to the population in the vicinity of the source of that noise. Low frequency noise is often not even ‘heard’ in the traditional sense. Complainants often won’t even realise that noise is the problem at all; instead they will describe ‘pressure sensations’ and ‘physical discomfort’, experiencing the incursion as vibrations. Areas of the human body can resonate when exposed to low frequencies. The chest, for example, can resonate at frequencies between 50Hz and 100Hz, and the head at frequencies between 20Hz and 30Hz. It isn’t unusual, therefore, for sufferers of low frequency noise to complain of anxiety, nausea and headaches. Often, they won’t even be aware of the root cause of their symptoms, instead attributing them to a virus or some mystery illness.A New Approach and a Sound SolutionSolutions for low-frequency noise issues typically involve wrapping the problem in significant quantities of acoustic insulation, with many standard solutions being as deep as 500mm to 700mm. The sheer volume of lagging required for an insulation-based approach to a project like Uskmouth, with a daunting 8,000m2 of ducting to be covered, would be expensive, time-consuming to install and prohibitively disruptive. What’s more, there were areas around the ducting at Uskmouth which simply wouldn’t have been able to accommodate such an excessive construction height of soundproofing material.Paul Absolon, CMS Danskin Acoustics’ Technical Director, responded to the challenge of creating a ‘thinner’ soundproofing system that would meet the necessary Noise at Work Regulations requirements but would be cost-effective and efficient to install. In order to minimise disruption to Uskmouth, an off-site simulation was created near Burton on Trent, using a large section of identical ducting with a ‘door’ sealing up either end. Within the duct were several very powerful speakers. For testing, highly sensitive microphones were placed in strategic positions along the outside of the duct to measure any ‘leakage’. Acoustic insulation solutions were conceived, implemented and assessed in this controlled environment with the assistance of Acoustic Consultants Muller-BBM and the installation company Western Thermal Insulations.Exploring a wide range of acoustic materials from CMS Danskin Acoustics’ industrial acoustics range, it was clear that a single product was not going to be able to solve the problem on its own, so Paul opted for a combination of products working in concert, layer upon layer.The first layer consisted of CMS HT1B elastomeric isolation pads, constructed from a polyurethane-bound rubber granulate specifically formulated to dampen and/or isolate noise and vibrations at source and independently tested by the Institute of Structural Dynamics at the Technical University of Dresden. The 50mm thick pads were bonded to the surface of the duct at a rate of nine per square meter, creating 300mm spacings; so, as well as the dampening effects of the material itself, the construction benefited from large, evenly distributed airspaces in its foundations. Sound waves move less effectively through dead air.The second layer consisted of 50mm-thick QuietSlab SVX3, a high-performance, mineral-fibre acoustic lagging. MIMA (the Mineral Wool Insulation Manufacturers Association) describe the acoustic insulation properties of mineral wool (and mineral fibres more generally): “Porous materials such as mineral wool work to control and reduce noise by allowing air movement into the fabric of the material. The fluctuations of air molecules – which form sound waves – move into the body of the mineral wool, where friction between the air particles and the material’s narrow airways cause sound energy to be dissipated as heat.”

Soundis was contracted to supply Acoustic Chip Board 28mm Overlay.As part of a major reinvestment programme into the northern seaside town of Blackpool, the owners of the promenade theme park, Blackpool Pleasure Beach, commissioned a luxury 120-room hotel featuring a 90-seat restaurant and state-of-the-art conferencing and event facilities catering for up to 200 delegates.The product chosen for this project was a 28mm Acoustic Chipboard Overlay Product commonly used over concrete subfloors for its cost-effective solution to impact noise with minimal impact on the floor to ceiling heights of the building.

New HQ in Leeds...The national broadcaster first announced it would be opening a new HQ in Leeds in 2019. Almost two years on, around 200 members of staff are beginning to settle into their new home at the Majestic in Leeds city centre.Soundis were contracted to supply & install approximately 2,050 sq m2 of seamless acoustic spray plaster to the industrial style ceilings.Our client opted for the rough texture Absorb-R GypLine VisibleAcoustic Spray Plaster System 35mm thick. We installed the plaster to the surface following the contours of the profiled metal deck, providing a Class A Sound Absorption.The carbon-neutral Absorb-R GypLine visible acoustic spray is a high-quality and environmentally friendly acoustic spray that absorbs unwanted noise and can be used in a wide range of environments.The Absorb-R GypLine visible is a combination of recycled paper, wood adhesive, water and professional installation work. The tubular structure of the cellulosic fibres enables effective reverberation absorption.

SubFloor acoustic flooring was used to help renovate, raise and acoustically dampen a 1318 m² old mill floor into 16 luxury apartments near Nottingham city centre.This simple and elegant solution raised an uneven floor by a step height to allow for installations and insulation. The joist and screw system allows for quick and easy assembly so that the floor can reach the desired height.Products:Wooden Joist 45x45x3600 mmSubFloor Screw 200 mmScrew Foot AcousticHeight Variation: 73 - 223 mmSystem Weight - c/c 600 mm: 2.65 kg/m²Materials:Pine T0-C24Fibre-reinforced polypropylenePolyamidePoint Load 50 x 50 mm: 5.3 kNUniformly Distributed Load:9.32 kN/m² - Between screws7.96 kN/m² - Next to screw over joistAcoustic Damping: Up to 28 dB[rating according to ISO 717-2]

The iconic sporting and entertainment venue in London contacted UK Roller Shutters seeking a security solution that also provided acoustic soundproofing for their loading bay.

SubFloor acoustic flooring was used to renovate, raise and acoustically dampen a 828 m² floor into 12 luxury apartments near Nottingham city centre.This simple and elegant solution raised an uneven floor up to 300 mm to allow for installations and insulation. The joist and screw system allows for quick and easy assembly so that the floor can reach the desired height. Acoustic feet were mounted onto the SubFloor screws for acoustic damping between apartments.Products:Wooden Joist 45x45x3600 mmSubFloor Screw 300 mmScrew Foot AcousticHeight Variation: 73 - 323 mmSystem Weight - c/c 600 mm: 2.86 kg/m²Materials:Pine T0-C24Fibre-reinforced VitamidePolyamidePoint Load 50 x 50 mm: 5.3 kN12.84 kN/m² - Between screws12.73 kN/m² - Next to screw over joist[According to SS-EN 1195:1998] Acoustic Damping: Up to 28 dB[rating according to ISO 717-2]

The internal environment of a newly built, highly sustainable school sports hall building on the south coast of England required acoustic enhancement to ensure it could be used and enjoyed to its full potential.The facility at the New Horizons Seaside Primary School at Lancing in West Sussex was created to provide much needed additional space for PE sessions, which had become more difficult for teachers to deliver effectively as pupil numbers have been increasing. The long term forward-thinking vision of the school to create a highly sustainable new building, rather than opt for a standard, compliance-level hall, was brought to fruition by architects Burns Guthrie and Partners.They proposed a design with materials and features that would minimise the carbon footprint of the sports hall, both in terms of its embodied carbon and carbon emissions during its lifespan. This included using a cross laminated timber (CLT) structure rather than steel, which represented an 85% reduction in embodied carbon for this major element of the building. In addition, windows were positioned on the eastern elevation to maximise solar gain from sunlight early in the day and underfloor heating was installed supplied by air source heat pumps. The building is also naturally ventilated, controlled automatically by the temperature and carbon dioxide levels within the hall.Once completed and in-use, attention turned to optimising the acoustic conditions through measures to reduce reverberation. Sports halls of all types are prone to high levels of reverberation given the presence of so many hard surfaces and few materials capable of absorbing soundwaves generated through speech, music and sporting activities.Following consultation between the architects and Hush Acoustics, a solution was proposed in the form of wall-mounted absorber panels. The technical team at Hush produced acoustic calculations based on the drawings provided by the architect, which enabled a plan to be developed showing how many absorber panels would be required and their locations within the hall.Hush Acoustics recommended the installation of 40x Hush Absorber 50 panels in three sizes – 1200 x 1200mm, 800 x 1200mm and 600 x 1200mm – which would cover more than 43 sq. m on the hall’s four walls. These absorbers are manufactured using a specially formulated 50mm thick acoustic foam which is hand finished with interior fabric applied to the face, edges and back return to offer a visually attractive result.The Hush team calculated that the installation of these panels would transform the acoustic environment through a significant reduction in reverberation time (RT) – that is the amount of time taken for sound to decay by 60 decibels (dB) in a closed space after the sound source stops. It would also ensure that the RT was in line with the levels specified for school refurbishment projects in BB93 (Building Bulletin 93) of between 1.67s and 2.01s.Prior to completion of the acoustic treatment, the 1000Hz RT was calculated at 3.90s. Following the installation of the Hush Absorber 50 panels, this reduced to 1.70s. Similarly dramatic reductions were also noted in the RT for lower and higher frequency sounds at 500Hz and 2000Hz.Now that Hush Absorber 50 sound absorber panels are installed, the New Horizons Seaside Primary School sports hall not only provides a model for sustainable development, but a high quality teaching space that is popular with teachers and pupils alike.

A residential developer approached Hush Acoustics after an acoustic test conducted on their project in St Leonards on Sea failed to achieve the acoustic compliance level needed under Approved Document E of the Building Regulations.The problem stemmed from a separating wall between two bedrooms which was constructed using a timber stud wall and had an overall thickness of 170mm. Its acoustic design was adequate on paper, but there was one issue that had not been correctly treated.One of the rooms measured 37m3 and the other 29m3 in size, with one notable consistent feature being a screed laid over a concrete floor.An airborne sound insulation sample test was carried out with no floor covering in place and this revealed a result of DnTw+Ctr 31dB.Levels of ‘flanking’ sound were significant - this meant sound was passing under the separating wall via the floor screed. The solution proposed by Hush Acoustics was to install Hush Mat 15 over the screed floor in both rooms.The effectiveness of this solution was evident in the follow-up test result of DnTw+Ctr 44dB. Whilst this result would be regarded as an average performance in most other types of buildings, the improvement here from a poor DnTw+Ctr of 31dB to 44db showed that Hush Mat 15 had delivered significant improvement and provided a solution to flanking transmission sound sources.The ensured the residential development satisfied the requirements of Approved Document E.

A refurbishment recently carried out at this holiday park in Great Yarmouth included the division of the large entertainment area to achieve a flexible, multi-use space. This features a sports bar one side with the other side hosting various activities such as exercise classes, kids’ activities, shows etc. Bolton Gate’s Sonaroll acoustic steel roller shutters were specified to divide the two spaces whilst providing reduced sound transmission when closed and when open, allowing the whole space to be used as a show-bar. The 100mm flat-faced laths allowed graphics to be applied depicting a boatyard scene

Technical Manager Tim Spencer “The initial need was for an elegant high-performance ceiling grid that could span 2500mm and support the ceiling infill. The answer was a bespoke version of our Rockfon® System MaxiSpan™ grid. We were then briefed to find an acoustic solution to resolve the acoustic challenges for the spaces which would host a variety of music concerts. We worked in partnership with ROCKWOOL and the solution was bespoke 100mm thick Rockfon Color-all® black ceiling tiles in combination with 100mm ROCKWOOL FLEXI® overlay and 40mm thick Color-all panels together with 100mm or 160mm FLEXI for the walls.”

Wedding ceremonies are made more peaceful in the Grade II and II* Listed Reading Town Hall following acoustic secondary glazing adaptations to block noise from the town centre. 23 units were installed. Each gothic arch was treated with a combination of transom coupled secondary glazed units with a Series 42 curved fixed light system affixed at the top. Series 10 horizontal sliding units were specified for the lower units on the wider windows, whereas the Series 45 side hung casement was selected for the narrower windows. 6.4mm acoustic laminate glass was specified which reduced noise levels by 40-45dB.

Hush Acoustics provided an effective solution to ‘noise break-in’ at a newly built primary school in Chester to ensure the internal acoustic environment was supportive of learning goals.The Huntington Primary school was designed by Cheshire West and Chester Council to cater for 420 primary age pupils and a 26-provision nursery. The former primary schools it replaced had a capacity of 120 children, but to cope with the demand of 1,200 new houses being built nearby on the former Saighton Army camp, the decision was made to build a new school to meet the requirements.An acoustic concern highlighted was ‘noise break in’ which is caused by issues such as the sound of rain falling onto the roof, which in turn would detract from the learning environment. In order to resolve this potential issue and to guarantee the children a healthy setting free from noise disturbance, we specified our Hush 10kg Barrier Mat to be installed in the roof of the building.Hush Barrier Mat is a vinyl sound barrier mat loaded with naturally occurring minerals. The product is free of lead, unrefined aromatic oils and bitumen. Designed to improve the sound insulation of existing panels of metal, wood, plastic etc., at all frequencies. The mat is normally fixed in intimate contact with the original panel. Hush barriers are particularly effective in overcoming coincidence dip resonance found in stiff lightweight composites such as plywood sheets and hollow core panels.Working alongside Kier, were Delta Group, who we supplied with 1100 sheets of our Hush 10 kg Barrier Mat. They then applied this to the roof of the school in 3x layers, to give a mass of 30 kg/m2 and improving acoustic performance across all frequencies.

A £5m renovation scheme in Warrington has been presented with the “Best Change of Use to Existing Building” regional award by LABC (Local Authority Building Control) and Warrington Borough Council.The scheme required the conversion of a former office building, Kings Court, in Central Warrington, into 32 luxury flats, comprising of a mix of one and two bedroom apartments, arranged over three floors of accommodation. These flats are situated above retail units and restaurants. The renovation included a further two exclusive duplex penthouses for Phase 2.As part of the renovation, Main Contractor Emerald Bay Construction required an acoustic flooring solution to meet Approved Document ‘E’ Building Regulations and therefore provide overall resident comfort, in terms of Sound Insulation between separating floors. As the building structural floor was primarily concrete, Soundis put forward a solution that involved 2,072 m2 of Soundis ChipPanel 28 to help with Impact Noise. This shallow deck floating floor is ideal for concrete floors where Airborne Noise is not an issue but Impact Noise Attenuation needs to exceed the requirements of current Building Regulations.