EURBAN - Specialists in CLT Construction by eurban_marketing

Specialists in CLT Construction

Cover image: York House Photographer: Ahmad El Mad Client: The Office Group Architect: de Metz Forbes Knight Main Contractor: Collins Timber Engineer: EURBAN Structural Engineer: Webb Yates Suppliers: Stora Enso & Binderholz

Magdalene College Library © Nicholas Kane

Contents Introduction 5 Why Solid Timber? 7 Sector Experience 9

Our Services:

Design 11 Supply and Install 13 Design Phase: Technical Design 15

Design Phase: Construction Information

Supply 19

Construction Phase: Off-site Manufacture

On-site Assembly and Completion 23 Solid Timber Products 25

Client: Magdalene College, Cambridge Architect: Niall McLaughlin Main Contractor: Cocksedge Timber Engineers: n’H International & EURBAN Civil & Structural Engineer: Smith & Wallwork Suppliers: n’H International & Stora Enso

Benefits of CLT

Environmental Benefits

EURBAN - Specialists in CLT Construction -

Wildernesse House Restaurant © Jack Hobhouse

Introduction EURBAN are a passionate and experienced team of engineers, project managers, designers and installers specialising in CLT construction. EURBAN are recognised worldwide as leaders and pioneers in the design, manufacture and assembly of flat-pack structures made from solid timber. EURBAN’s role within a construction project is that of a specialist – a specialist engineer or specialist sub-contractor depending on the timing and scope of our engagement on a project. Panelized solid timber construction, often referred to as CLT construction due to the predominant use of cross-laminated timber (CLT) panels, is a Modern Method of Construction (MMC). Through off-site manufacture and carbon storage, comfortable and sustainable buildings can be delivered quickly, safely and economically. Specialists in CLT construction Our consultancy and construction services are tailored to our client’s needs. Through every stage of a project we manage costs, mitigate risks, and deliver solid timber structures quickly, safely, and sustainably. We use digital engineering and fabrication technology to optimise the design, procurement, and construction phases of a project. Design for Excellence The cost and quality of a solid timber building are largely determined during the design stages of a project. Our role at these early stages is to support the lead designer in developing a smart, cost-effective, and robust design solution. We do this by designing for all phases of a building asset and with a particular focus on the construction phase in order to deliver better buildings more quickly. Timber Engineering Timber engineering is central to our service. Our product is a panelized building structure that is manufactured off site and assembled on site. EURBAN’s engineers are specialists in the behaviour of timber and the design of timber connections. EURBAN takes pride in having delivered some of the most iconic solid timber structures.

Client: PegasusLife Development Ltd Architect: Morris & Co Main Contractor: Shaylor Group Timber Engineer: EURBAN Structural Engineer: Peter Brett Associates Suppliers: Skonto CTS & Pabst

EURBAN - Specialists in CLT Construction -

Surrey Lane Cobalt Place © David Grandorge

Why Solid Timber? The maintenance and construction of buildings contributes significantly to carbon emissions worldwide, therefore our industry has a responsibility to tackle the climate crisis. We need to reduce the carbon impact of buildings both in the construction phase and while in use. We need to find better ways to build. Solid timber construction gives us the opportunity to build buildings with a reduced carbon footprint because of the materials and processes employed. Solid timber construction enables us to construct the buildings we require without destroying the environment we live in. Solid timber construction is the future of construction, it is also our future.

30% Less weight

25% Faster delivery

10% Lower costs

Solid timber building structures are typically 75% lighter than traditional reinforced concrete structures.

The on-site construction period for a solid timber building structure is typically 25-40% less than that of a concrete frame structure.

Solid timber construction has been shown to be cheaper than concrete frame construction, particularly on larger projects.

Client: Lendlease Architect: AHMM Main Contractor: Lendlease Timber Engineer: EURBAN Structural Engineer: Walsh Associates Suppliers: Stora Enso & Schilliger Holz AG

85% Less traffic

40% Fewer emissions

C6 100% C Carbon storage

Fewer traffic movements to and from site reduces neighbourhood congestion, pollution and disturbance.

Solid timber construction is one of the most effective ways to avoid unnecessary carbon emissions.

Solid timber construction is one of the most effective ways to combat climate change.

EURBAN - Specialists in CLT Construction -

RIDPORT

Nr. 2301 GIA: 1310m2

46m3

2305 Wilderness

Nr: 2507

GIA: 1459m2

Nr: 2489 GIA: 3539m2

Sector Experience EURBAN have an unrivalled wealth and breadth of experience in the delivery of CLT and glulam structures. This experience has been gained from the design and construction of over 350 buildings to date in the UK and beyond in almost every sector: from small houses in rural locations to high rise blocks in urban centres; from roof top extensions to insertions within sensitive historic contexts; and from new buildings for schools or universities to major new campuses on brownfield sites.

Nr: 2053 GIA: 1580m2

These different contexts and scales each have a set of specific requirements in terms of the design, supply and assembly that need to be considered. EURBAN’s team can bring in-depth knowledge to the table at each step of a projects’ evolution to help client and design teams realise their aspirations. The main sectors that we work in are listed below: • • • • • • • • •

Education Higher Education Multi Storey Residential Private Homes Workplace Arts & Culture Sports & Community Transport Retail

A collection of structures that EURBAN have designed, supplied and installed are illustrated opposite. From top left to bottom right:

REV

DATE

AMENDMENT

THE COPYRIGHT IN THIS DRAWING IS VESTED IN EURBAN LIMITED AND NO LICENCE OR ASSIGMENT OF ANY KIND HAS BEEN, OR IS, GRANTED TO ANY THIRD PARTY WHETER BY PROVISION OF COPIES OR ORIGINALS OF THE DRAWINGS OR OTHERWISE UNLESS OTHERWISE AGREED IN WRITING

DRAWING TITLE

JOB TITLE

SHATWELL

DELIVERY SCHEDULE 2 EAST BLOCK

SHATWELL LANE, WINCANTON SOMERSET, BA9 8DL

STATUS

JOB NO. FOR ELECTRONIC DATA ISSUE ELECTRONIC DATA / DRAWINGS ARE ISSUED AS "READ ONLY" AND SHOULD NOT BE INTERROGATED FOR MEASUREMENT. ALL DIMENSION AND LEVELS SHOULD BE READ, ONLY FROM THOSE VALUES STATED IN TEXT, ON THE DRAWING.

Multi Storey Residential: Bridport House, Finchley Road, Boiler House, Bacton Low Rise, Woodberry Down. Private Homes: Bourne Lane, Push-Pull House, Sandy Ridge, Blackheath House, Bliss Blakeney. Education: Oakridge School HCC, St Benedicte’s New Ark Junior School, Trumpington Park Primary School, Mossbourne Riverside Academy, Waingels College. Sports & Community: Frilford Heath Golf Club, Wildernesse House restaurant, Passmore School Sports Hall. Arts & Culture: Regent’s Park Open Air Theatre Studio, Shatwell Archive. Workplace: Upper Street, Lower James Street, CNPA Headquarters, De Beauvoir. Higher Education: LICA - Lancaster Institute for Contemporary Arts.

FOR INSTALLATION

1679 SCALE @ A1

DATE

DRAWN

CHECKED

1: 100

25.03.2013

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DRAWING NO.

REVISION

1679_CA_502

EURBAN Limited Unit 2 33 Waterson Street London E2 8HT

T +44 (0)20 7749 3929 E info@eurban.co.uk www.eurban.co.uk

EURBAN - Specialists in CLT Construction -

D IN

EN D EP

ENT SUP P LY

IN - HOUSE

N DESIG

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N O I T A LL

SP E

Our Services: Design Our services cover the design, pre-construction, and construction stages of a project. Stage 1 - Inception We review a project’s parameters, objectives, and site constraints, then apply timber engineering principles, knowledge, and experience to assess the extent to which the project could be realised using panelized solid timber construction. Our specialist team of engineers, architects and installers can quickly establish the viability of a project to be built using solid timber. Stage 2 - Concept Design As specialists in solid timber construction, we propose a comprehensive design solution based on structural criteria such as safety and serviceability and non-structural criteria such as enclosure and appearance. We also propose an appropriate level of pre-fabrication and standardisation based on our understanding of the project and our knowledge of the marketplace. We assess site constraints early on and take these into consideration when planning access for cranes and lorries. Stage 3 - Developed Design We support the lead designer in developing a superstructure design that aligns with the architectural design intent and co-ordinates with the fire strategy and the M&E services strategy. We concurrently develop the superstructure design, advising on manufacture and assembly in accordance with the chosen level of pre-fabrication and standardisation. At this stage we support development of the on-site moisture and fire safety strategies to ensure moisture and fire safety during construction. Stage 4a - Technical Design We co-ordinate the design of the superstructure and develop a 3D model to suit the architectural design. At this stage the superstructure design will include structural openings (doors and windows), service penetrations, as well as interfaces with other elements such as stairs, balconies or canopies. It also includes any non-structural attributes such as visual quality of exposed timber surfaces. We follow a tried and tested design approvals process with the design lead in order to achieve ‘sign off’. Once the drawings receive a status A/B the design is ready to go into fabrication. The design is sufficiently complete for the pre-construction stage of the project and drawings are ready ‘For Construction’.

EURBAN - Specialists in CLT Construction - 11

Marmalade Lane © David Butler

Our Services: Supply and Install Stage 4b - Construction Information We produce a virtual model, a ‘virtual twin’ which is used throughout the whole process: it produces fabrication information for the off-site manufacture phase as well as virtual construction information for the on-site assembly phase. This ensures a seamless transition between the design and construction phases of a project. We also prepare structural design calculations and temporary works calculations during this stage. Stage 5a - Off-site Manufacture Our bespoke laminated timber components are made to order and digitally tagged using computer-aided manufacturing (CAM) and computer-numeric-controlled (CNC) machinery for precise cutting. Additional fabrication and pre-assembly works may take place depending on the level of pre-fabrication employed on the project. Stage 5b - On-site Assembly We use our virtual construction model to package components and schedule their just-in-time delivery to site. This ensures that material only leaves the protected environment of the factory when it is needed on site. We also provide assembly instructions in order to ensure that the building components can be assembled quickly and safely. Assembly works are undertaken by our highly trained assembly teams. Stage 6 - Completion During assembly an on completion of the building structure, we undertake quality checks and produce the necessary record drawings and other information required for the safe maintenance, alteration and eventual disassembly of the building structure.

Client: Cambridge Cohousing Ltd Architect: Mole Architects Main Contractor: Coulson Timber Engineer: EURBAN Structural Engineer: Elliott Wood Partnership Suppliers: Stora Enso, Pabst & Constructional Timber

EURBAN - Specialists in CLT Construction - 13

Lift shafts pre-lined in factory

Builder work holes cut in factory conditions

Brackets fixed to upstands

Design, supply & installation of steel stairs

EURBAN’s 3D model of Highpoint Terrace, London

Design Phase: Technical Design Industry best practice recommends early engagement of the specialist in order to reap the benefits of off-site and solid timber construction. Design for Manufacture and Assembly (DfMA) EURBAN design for the construction phase in order to reduce the structure’s cost whilst improving its quality. The building structures we design are panelized in such a way that they can be easily manufactured off-site and quickly assembled on-site. Front Loaded Design The RIBA published the DfMA overlay to the RIBA Plan of Work in 2016. One of the key recommendations is to front-load the design process by bringing specialist sub-contractors and consultants on board as early as RIBA stage 1 or 2 in order to discuss buildability from the outset. With clients and policy makers taking increasingly more interest of sustainable construction methods and zero carbon schemes, the entire life cycle of a project can be assessed from the outset. BIM Designing for Manufacture and Assembly (DfMA) requires the use of computer aided design CAD and working in 3D. At EURBAN, Building Information Modelling (BIM) is at the core of all content creation and the 3D computer model evolves with the project. Holes for balcony outlet notched off site

Our project teams support the co-ordination of the various disciplines, integrating all interface design into the model. During the approvals process, the design lead - usually the architect - will go through a rigorous, iterative process of checks of the drawings until sign-off is reached. Foundation Dimensions and Weight CLT is lightweight and high strength. CLT’s lightness leads to a cost reduction in substructure. The CLT superstructure will be signiﬁcantly lighter than a concrete frame, therefore savings in the cost of foundations can be expected.

Client: Peabody Housing Association Architect: Rogers Stirk Harbour & Axis Main Contractor: Mace Timber Engineer: EURBAN Structural Engineer: AKTII Suppliers: Stora Enso, Pabst & Fermacell

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Week 1

Week 3

Week 5

Week 7

Week 9

Week 13

Week 15

Week 17

Week 19

Week 22

Week 23

Week 26

EURBAN’s 4D BIM model of Northstowe Education Campus

Design Phase: Construction Information 4D BIM The DfMA methodology is integral to the design, manufacture and assembly of solid timber buildings. Where appropriate, sophisticated software such as 4D BIM can give design teams the opportunity to develop the DfMA methodology one step further and introduce the 4th dimension - time - into BIM models. The entire solid timber superstructure assembly can be modelled before work begins on site. Early panelization of the CLT superstructure allows for accurate identification of the number of delivery vehicles to site and the logistical planning to and from site. Crane locations and lifts, material lay down areas, deliveries, and labour requirements can be mapped out. Sequencing issues and risks can be identified and addressed earlier, giving stakeholders and clients a high degree of insight and control over the process. Northstowe Education Campus This project, illustrated to the left is a good example of the benefits that 4D BIM can bring to a project in terms of programme. The solid timber superstructure of this very large project was delivered in record time. Total project Area: 12,275 m²

Client: Cambridge Meridian Academies Trust Architect: Frank Shaw Associates Main Contractor: Kier Eastern Timber Engineer: EURBAN Structural Engineer: Peter Dann Suppliers: Stora Enso, Pabst, Constructional Timber & n’H International

Total Material Volume:

4,750 m³

EURBAN Appointment:

February 2018

EURBAN Completion:

July 2019

Duration of EURBAN build:

28 weeks

EURBAN - Specialists in CLT Construction - 17

Supply EURBAN has a very well established supply chain with the major manufacturers in central and wider Europe. Our close working relationships with our suppliers means we can offer the appropriate material to suit the specific requirements of each project. Being independent from any one saw mill means EURBAN can source material from multiple manufacturers for any one project if necessary. The map opposite locates many of our trusted partners listed below: EURBAN Offices in London, United Kingdom and Frauenfeld, Switzerland Stora Enso - Austria, Sweden Pabst - Austria Skonto Cross Timber System - Latvia Binderholz - Germany, Austria Wiehag - Austria Lignature - Switzerland Lignotrend - Germany Hasslacher - Austria n’H International - Switzerland Pollmeier - Germany Piveteau Bois - France Heskin Fabrications - United Kingdom Material Movement on EURBAN Projects CLT and other products Steel Fixings

Rothoblaas - Italy Sherpa - Austria Hilti - Liechtenstein SIGA - Switzerland EURBAN - Specialists in CLT Construction - 19

Stora Enso’s CLT factory

Construction Phase: Off-site Manufacture Off-site Manufacture On completion of the design process EURBAN arrange for the timber components to be madeto-order by our manufacturing partners. The CAD model is transferred to computer automated machines (CAM) to produce accurate pre-fabricated Cross Laminated Timber wall, floor and roof components along with glulam beam and column elements to allow for accelerated site installation. Another benefit of off-site manufacture is the reduction of on-site labour required because of the option to pre-assemble certain elements in the factory. Site Logistics & Crane Plan Early panelization of the CLT superstructure allows for accurate identification of the number of delivery vehicles and the logistical planning to and from site. Crane plans and delivery schedules are developed and co-ordinated with the Main Contractor’s wider Site Logistics and Traffic Management Strategies. Airtightness CLT is inherently airtight as a panel material. The accuracy of the CNC cutting of CLT elements, the cross lamination of the panels and the high installation tolerances ensure that airtightness can be delivered using a CLT building system without a reliance on envelope membranes. EURBAN design and install highly airtight building structures achieving low air permeability, measuring less than 5m3 (h.m2) at 50Pa. This is achieved through the use of high quality panels which are effectively airtight and the application of tape to panel joints. In terms of overall building airtightness this will be determined by the airtightness of all works packages, in particular, the detailing and on-site workmanship of the interfaces such as door and window openings.

EURBAN - Specialists in CLT Construction - 21

16m CLT floor panels being delivered to Highpoint Terrace site in Elephant and Castle

On-site Assembly and Completion EURBAN work closely with the Main Contractors to deliver buildings smoothly and efficiently, on time and within budget. Just-in-time delivery This means that materials are delivered to site, off-loaded from the lorry, then craned into position and fixed following the assembly instructions. To maximise the benefits of ‘just-in time’ deliveries afforded by the use of CLT, the Main Contractors need to ensure a well documented logistics strategy is in place to minimise the need for longer material lay-down times. Sequencing advantages The programme benefits of CLT assembly can be increased in larger multi-storey developments with the introduction of phased hand-overs. Follow-on trades can be completing the lower floors while EURBAN’s team can continue installing upper floors. Fewer deliveries, fewer operatives Far fewer lorries are required to deliver materials to site when compared to conventional building methods such as Reinforced Concrete (RC) frames. This in turn reduces the local traffic, air and noise pollution on the roads around the site. MACE carried out a comparative study on a development in central London, Highpoint Terrace completed in 2018: Deliveries for an RC Frame:

250 lorries

Labour required for RC frame:

Deliveries of CLT:

64 lorries

EURBAN team: 8

Health and Safety EURBAN’s team operate with proactive and robust Health & Safety (H&S) measures in line with current legislation in respect of its works on site. Our in-house H&S team supports the Main Contractor with the necessary documentation - tailored to site specific works - ensuring works can proceed safely on site.

Client: Peabody Housing Association Architect: Rogers Stirk Harbour and Axis Main Contractor: Mace Timber Engineer: EURBAN Structural Engineer: AKTII Suppliers: Stora Enso, Pabst & Fermacell

EURBAN - Specialists in CLT Construction - 23

Solid Timber Products EURBAN has an expansive network of suppliers which means the most appropriate material can be sourced for projects depending on the requirements and specification. The main products are as follows: Cross Laminated Timber Cross laminated timber is manufactured using softwood planks that are glued together in an uneven number of orthogonal layers (i.e. alternating transverse and longitudinal orientation). The resulting solid timber panels can be manufactured in thicknesses ranging from 60mm to 320mm and with panel sizes up to 2.95m by 16.50m. The resulting panels are extremely versatile with inherent two-way spanning capacity and can be cut to any shape required. The panels can be supplied with different grades of surface finish, and can be left exposed internally as a feature of a building’s finishes. Across the various suppliers there are essentially 3 different visual surface grades of timber: 1. Visual which can be left exposed at eye level; 2. Industrial Visual which should only be exposed at high level or on soffits; and 3. Non visual, which should be lined or may be left exposed in utility or other plant spaces/risers CLT panels can be used vertically (as load bearing walls) or laid flat as floor or roof panels. Glulam Glued laminated timber or glulam is composed of precisely cut timber pieces bonded together with moisture resistant adhesive, optimising the structural values of timber. Glulam elements can span larger distances and take larger loads than plain timber and are able to be curved and shaped. In this form, the material remains comparatively lightweight and thus offers an advantage over steel and concrete systems. Other There are several other solid timber products on the market such as Laminated Veneered Lumber (LVL) and others which EURBAN can also supply, but the predominant materials are the two listed above. Products such as ligature and lignotrend, incorporate wood fibre insulation and so have improved acoustic or thermal performance. We also supply steel elements that are required for the structure as well as the fixings and tape for the joints. Factory applied water proof membranes and sensors can also now be specified for improved protection on site or for monitoring moisture in the structure over time.

EURBAN - Specialists in CLT Construction - 25

Benefits of CLT The cross-laminated timber panel superstructure is a lightweight form of construction. When compared to steel or reinforced concrete, solid timber construction provides the added benefit of reduced loads and as a result a reduction in the volume of the foundations. This form of construction also comes with the advantage of significantly reduced erection times, a high degree of air tightness and early water tightness when compared to more conventional, heavyweight forms of construction. As a naturally growing resource, timber products are inherently versatile and achieve high levels of reduced/zero material wastage and may experience two or more additional life cycles. • Lightweight structure/ Load spread - efficient foundations. • High Performing Material – simple, energy efficient solutions. • Renewable resource material. • Robust construction with simple interface details. • Buildability and co-ordination with interfacing packages. • Airtight structure. • Design for flexibility and future-proofing. • Value engineering throughout design development of solid timber structure. • Design for efficient site logistics and build sequencing. • Compatible with other off-site technologies. • Economic overall build. • Clean, quiet, quick installation. • Short installation period enabling following trades to align and optimize site programme. • Suitable for constrained sites. • As a natural material it contributes to a high quality indoor environment. • Demountable, reusable structural material.

Client & Architect: Tikari Works Main Contractor: Tikari Works Timber Engineer: EURBAN Structural Engineer: Webb Yates Suppliers: Stora Enso & Pabst

EURBAN - Specialists in CLT Construction - 27

Environmental Benefits Sustainably Managed Forests & Stored Carbon The process of photosynthesis removes carbon dioxide from the atmosphere and releases oxygen. Trees convert the CO2 into carbohydrate molecules and therefore all timber products are an effective store of CO2 until they decompose or are burnt at the end of their life and the CO2 is released back into the atmosphere. Long lasting engineered timber products such as CLT and Glulam are therefore highly effective CO2 stores. In addition the energy required in the process of manufacture of cross laminated timber and glued laminated timber is low when compared to other building materials. By specifying solid timber instead of traditional building materials a design team will reduce its carbon footprint.

Carbon store 1m³ wood

Energy substitution

0.9t CO2

2t CO2

1.1t CO2

Above: total CO2 saving from combined carbon store and substitution effect.

Client: Regent’s Park Open Air Theatre Architect: Reed Watts Main Contractor: GPF Lewis Timber Engineer: EURBAN Structural Engineer: Price & Myers Suppliers: Stora Enso & Pabst

EURBAN - Specialists in CLT Construction - 29

Austrian forest

Managing resources and reducing waste are important considerations in the construction industry. The manufacturing process of CLT is ‘zero waste’. Every part of a felled tree from pith to bark is used to produce valuable materials. Sawdust and wood chippings - the two primary bi-products from the CLT and glulam manufacturing process - are collected and used by the fibre and particle board plants of paper mills. These plants are usually situated next door to the saw mills, to make boards, insulation, paper or other wood fibre products. The CLT used by EURBAN is sourced from sustainably managed forests and the saw mills we work with can provide the necessary certification to prove the Chain of Custody from the PEFC (Programme for the Endorsements of Forest Certification). The PEFC logo is a globally trusted trademark from the world’s leading forest certification system. It communicates to our clients that the solid timber products we use are responsibly sourced. EURBAN are able to contribute to the BREEAM or Passivhaus assessment of the project by providing: • • • •

The amount of stored carbon in the solid timber superstructure Evidence of Chain of Custody PEFC Certification of the material FSC Certification of the material on request

STORING CARBON IN TIMBER

EURBAN - Specialists in CLT Construction - 31

EURBAN

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