Taking Making into Practice: Hawkins\Brown Architects

Earlier this year we were approached by Hawkins\Brown Architects to host a CPD session for their Manchester office, several of whom are Alumni of Manchester School of Architecture.

This gave us the opportunity to consolidate our current approach at MSA and present the idea of model making in a new inspirational light.

Much like our approach to tacking problems in the workshop we began by getting to the heart of the subject. Looking at the origins of the craft we asked ‘where did it all start and why?’ The craft’s background bares many similarities to our current thoughts and reasoning behind modelmaking. The physical model is viewed as an embodiment of ideas, beliefs and values to be read by others.

IMG_2958

Our presentation followed the timeline of history, using ancient and classical precedents to modern day applications in architectural practice, portraying the changes for the maker and architect. Expanding on our exploration, we asked Hawkins\Brown to tell us their views from a project level and their thoughts on the future of modelmaking in practice. We gain an insight from Hawkins\Brown Architect and MSA Graduate Jack Stewart who has a keen interest in the ever evolving relationship between physical modelmaking and digital fabrication.

“I’d bet there isn’t a single project that makes it through Hawkins\Brown without at least one model being produced for it. 

We can make models for all stages of projects and using models as design tools is an essential part of our process. Quick sketch models are invaluable to explore our ideas in three dimensions with design teams. Whilst these and more polished models are fantastic tools to help describe schemes to clients and sell schemes to stakeholders or consultation groups, such as planning. Clients love handling a tangible three dimensional object and we love testing them”

Education and Practice

The idea of making in practice is something that many of our students wish to continue and in many cases would gladly devote a lot of more of their time to. This often raises the question of how this ideology can be and is fulfilled in practice. What can come as a surprise is the broad selection of styles and scales of model making that is actively used in practice everyday.

hawkins-brown-london-1

For example Hawkins\Brown have just invested in a new modelmaking workshop space at their London base and have a designated maker space at their satellite Manchester office which recently celebrated its 1st year of work.

“Historically we have relied upon design teams to construct their own physical 3D models and when a particularly onerous or complex model has been required we would outsource this to a specialist model maker. We don’t anticipate the latter disappearing, but we do value the close link between our design teams and the models that they are using. As such we have recently employed an in-house model maker. We’re at a size now where an in-house model maker is really valuable to help educate on model making techniques, explore more possibilities, maintain the equipment that we have in-house and make the connection with external resources for machines and materials that we don’t have in-house. We anticipate this will help to take our in-house models to the next level.”

Hawkins Brown London (10)

What is particularly encouraging about this approach is the value given to the craft of model making and the potential for those within architecture to utilise the skills they have learnt within their education.

“[Our] design process doesn’t follow a company standard. Every project is unique creating a unique series of design challenges. Like the adage says, ‘there are many ways to skin a cat’, it is up to the individuals within a design team to decide how they would like to best approach a design problem. In many cases this results in the creation of a physical model.”

IMG_3067

Working space

Having worked in several different modelmaking companies and visited many different workshops, no two set-ups are the same. Finding a balance of the appropriate tools to fit out a workshop is instrumental in making each output achieve its intended purpose. Hawkins\Brown are striking this balance between hand craft and digital fabrication.

“We have much of the more traditional facilities and equipment such as cutting mats and tools for thinner sheet materials, hot wire cutters for foam models and numerous typical working tools for material preparation. We invested in a laser cutter four years ago, which further increased our ability for model production.”

The company have also recently purchased a ‘MakerBot’ and ProJet360 Powder printer with a view to speeding up the production of complex forms that can be deemed too time consuming for traditional making techniques during design development. Time, or a lack of it, is certainly a major consideration when it comes to the application of modelmaking in student submissions. The increased pressure for a variety of submissions at once allows little time to learn through making. This is something that we strive to improve upon, though how is this considered in practice? How does project time factor in allowance for modelmaking requirements? Jake Stephenson is a recent part 1 architect working at Hawkins\Brown who has continued modelmaking into practice.

“[Modelmaking] is very important and affirms what we learned at university about the process informing the design. In practice [modelmaking] goals are usually a decision made between myself and the project architect about when it would need to be completed by. Being realistic about my own time and skills as well as how fast a model would can be created. It’s very much about my awareness of time scales; booking laser cutting sessions, getting files ready – then allowing enough time to build my model for the deadline we set ourselves.

When it comes to costs it’s about giving options. For example when doing an iterative sketch model, I would use cheaper materials, compared to a model that is to show the client where the budget would generally be bigger for material costs. We would always try to source the cheapest most effective options by checking with multiple suppliers to get the most for our budget.”

hawkins-brown-manchester-2

Thoughts on the future

There are many perceptions of what it is to practice architecture as we are reminded daily in our workshop and without fail at every university open day. If we were to give a cross section of the questions we were regularly asked by prospective students and their parents it would invariably bring up something about technology and CAD driven machines. The awareness within the general public has increased due to the shift in accessibility of mainstream manufacturing techniques and prototyping. It’s important to remember that much of this stereolithographic technology is not as new as so often perceived. What has changed in recent years is the relative ease for interested parties to use it. This has led to an almost universal expectation that these mediums be made available in education and that accessing them is a given and large part of modern learning.

Our responses to the often broad enquiries in the area of 3D Printing and Laser cutting often lead us to ask a lot of ‘Why?’ based questions. ‘Why are we setting out to make a particular object and why do you believe such a machine can get you to that goal?’

Our concern and reasoning here is in the misuse of technology as a learning tool. There is often a strong desire from students to depend upon it without understanding their own intentions or purpose of their exploration through the model. We advocate the work ethos to our students to stop and think before diving straight in.

Hawkins Brown Manchester (3)

For Jack Stewart, having a strong interaction between traditional and contemporary data driven approaches is very important for successful outputs and effective learning within the Hawkins\Brown team.

“With BIM becoming ever more prevalent, in the construction industry, digital models for detail production and delivery of projects are becoming increasingly important. But how we generate the forms and arrangements of our buildings, at a concept design stage, benefits hugely from both digital and physical modelling too.

For CAD modelling it is a particularly interesting domain. A model that perhaps begins life as a simple massing study will evolve, through to construction, usually through numerous separated studies. However now, through using emerging generative modelling technology, this entire process can potentially be captured in one software tool. The possibilities here are that decisions made, that are dictating early design principles, could in theory be amended much later in the process with all subsequent detail updating accordingly. This is possible as more sophisticated digital models geometries can be defined as a series of design decisions that are stored as data, rather than statically sculpted ‘dumb objects’.

The benefits of models stored as data is the ability to translate this data, quite easily, into something else – something physical. And with the accessibility of rapid prototyping and the machines described previously the connection to and knowledge of these machines will likely become increasingly important. The techniques and skills needed for model making will certainly grow in this regard. Whilst the skill required to manually craft materials into beautiful models, should not be lost, I believe future model makers will become even more well versed in intelligently generating CAD models and then streamlining these for fabrication. Here I see the boundary that we define between digital and physical models, and between designer and model maker, changing.

Putting together our initial presentation for a CPD has been a good opportunity to reflect and analyse our beliefs about modelmaking at B.15.  With the ongoing digital shift in architecture, the role of the architect is changing and architectural education needs to respond to that. Graduates who can identify the best means to explore their ideas through proven skill will be more sought after than those who solely depend on technology to make their decisions. Our ongoing discussions with Hawkins\Brown have proved insightful and we look forward to working more with this growing practice.

project-1621-schuster-annex-landscape_0000s_0000_1621_n43932

Hawkins\Brown have offices in Manchester and London employing some 240 architects. Current projects include the London Crossrail development and the Schuster Annexe at The University of Manchester (render shown above).

Many Thanks to Jack Stewart & Harbinder Singh Birdi & to Laura Keay & Jake Stephenson for inviting us to present.

For More information visit: http://www.hawkinsbrown.com/ 

Scott Miller, B.15 Modelmaking Workshop 2017

Coexistence in Theory 3rd Year Mancunian Way Site Plan

3rd year Coexistence in Theory has been focussing on a stalled site located next to the Mancunian way in Manchester. The group will use this abandoned infrastructure to propose new interventions that will bridge the site bringing in to back into functional use.
3rd Year Site Model (1) 3rd Year Site Model (4) The group decided to represent a large portion of the Mancunian way which runs through the city along with building massing and defined roadways across the site. This was done by overlaying grey card board pieces to act as raised pavements creating contrast with the light coloured plywood base below which provides the road areas.

3rd Year Site Model (11) 3rd Year Site Model (7)The stalled site in question is represented in more detail due to its importance and comparative skeletal appearance to the rest of the buildings in the area. This was made using laser cut ply whilst the main massing of the rest of the model is made us of blocks of pine cut and sanded to shape.

3rd Year Site Model (13) 3rd Year Site Model (16) Group member Georgina Erotokritou described why the group are producing the model for their projects:

“It’s the easiest and most understandable way to explain ideas, space and arrangements in 3D space. Because this model covers a wider context it is easier for the viewer to see the entire picture and see how our buildings connect to the site.” 

The model is now being used as a stage to present the groups ideas as they develop throughout the year.

3rd Year Site Model (17)

Abhi Chauhan: ‘Testing the Machines of a Third Industrial Revolution’ 1:100 Site Section Model

6th Year MArch student Abhi Chauhan has recently completed several models as part of his Intimate Cities project. The earlier models were used to demonstrate initial concept ideas and helped influence design changes. In keeping with the subject matter of the proposed development Abhi has put heavy emphasis on digital manufacture.

Abhi gives us an over view of the project and how this model fit in to its development:

As part of the Intimate Cities Atelier this year we were concerned stalled construction sites in the city of Manchester. These sites are unique in that their infrastructural order has been partially installed and my primary aim is the reconnection of these sites back to the city context. Situated on the Potato Wharf stalled construction site, the final scheme looks at the idea of bringing around a Third Industrial Revolution, by looking at the research and testing of an advanced manufacturing technique (3d printing) and a new energy infrastructure, (hydrogen fuel cells).

 Realised as a masterplanning strategy the stalled concrete frame on the Potato Wharf site is used a ‘live’ test-bed for 3d printed architectural components, in addition to this the scheme engages with the redundant  transport infrastructure bounding the site and reinstates the canal and rail network as a distribution matrix for the transport of raw material. A reconfigurable 3d printed public park defines the edges of the new site in the overall strategy.

VISUAL LIGHT

The renders depict how the main 3d printing manufacturing hall and hydrogen exchange will look. The 3d printing facility is concerned with the research, manufacture and testing of 3d printed architectural components and as such the construction and detail is oversized to deal with a variety of different scales present on this project.

This first conceptual model depicts the main processes occurring in the 3d printing facility and follows the life-cycle of a 3d printed architectural component from its raw powdered state – stored in a material archive; to the printer beds; then for reconfiguration in a graveyard of failed components; and ultimately to its reverse engineering back to its raw powdered state.

The main frame was laser cut from 6mm MDF and designed to slot together. After spray painting grey to depict a raw concrete surface a series of powder printed material stores were fixed in place. It was decided to 3d print these stores due to their complex shape and the desired ‘layered’ construction aesthetic I was after.

The main machines in the model have all been constructed from separated components each laser cut from 2 and 3mm clear acrylic.

The 3d printed architectural components created in the facility were depicted by themselves being 3d printed. These parts were modelled in 3ds max and made ‘watertight’ ultimately for 3d printing on the ABS printer. (Abhi Chauhan May 2014)

Abi (2) Abi (5)Abi (6)

Abi (7)

One aspect of Abhi’s model work which is particularly successful is the appropriate use of different process. Having an understanding of the best suited method to achieve a desired outcome is key to an effective model. Without a clear aim as to what it is you are trying to convey many models have little practical use in conveying the key aspects of a design concept. This model of course naturally lends itself to 3d printing due to the subject matter.

IMG_0740 IMG_0744 IMG_0750 IMG_0752 IMG_0753 IMG_0757 IMG_0758

‘In Limbo’ Presentation Site Model, Laura Minca

Laura SiteIntimate Cities student Laura Minca has designed an ever changing settlement within the city centre. The site, on the corner of Whitworth Street and Princess Street in Manchester has been a site of a stalled project for some years now. Laura’s concept would allow the site to continue to expand and develop as required with a construction crane remaining on site to build as the site needs evolve.

INTERIOR3

 

Laura gives us a description of her project below:

The project aims to initially investigate the city of Manchester under a temporal lens, focusing on the spaces ‘in-between‘ worlds, ‘in-between’ stages of development that resulted following the economic downturn. At the heart of the city’s commercial and conservation area lies Origin – unfinished, incomplete, abandoned, hiding behind faded slogans of glamour and projected fantasies of luxury living and work opportunities.

The research and output developed as part of the [Intimate Cities] Atelier will be focused on the current condition of the Roma groups that have targeted the United Kingdom ever since Romania’s entrance in the European Union in 2007. Although their ‘nomadic’ condition is debatable and its deriving taxonomy should be reassessed, the Roma groups provide a fascinating case study in terms of a traveling community’s continuous struggle to adapt within fluctuating social, political and economic climates. 

The temporal context of the project is set starting with January 2014 when the transitional controls on free movement adopted by the UK will end. Following the lift of the travel restrictions and free access to the UK labor market, a high influx of Romani groups are expected to arrive and settle within British and implicitly, Mancunian territory.

Drawing on dichotomies of spatial purity and impurity, on notions of boundary, transience and spatial justice, the scheme proposes a temporary, modular structure that plugs into the existing site infrastructure – a contemporary Roma camp, aimed to provide the incoming community with a set of architectural and spatial principles that develops incrementally.

The focus on temporary, adaptable, shared spaces challenges the sedentary predisposition specific to Western architecture and its affinity towards grand, enduring structures. The approach is driven by the idea that architecture functions as an ideology in built form, that homes are more than just fixed dwellings, more than just sheltering devices: they are tools that enable the communities that use architecture to carve their identities and redefine visions of themselves and their collective subconscious.

This is not a scheme about pristine, perfectly aligned spaces and sleek technologies, but an exploration of imperfection, of the random and the improvised. A breathing, ever-changing structure that echoes the unconventional ways of the Romani people and their ability to adapt in any given environment. (Laura Minca 2014)

Concept renders of how the site would look.

E1 R3_Context2

The scaffold construction that makes up the bulk of the design was represented by engraving the framework on acrylic sheeting and rubbing in acrylic paint to the define the details. This effect is much more efficient that attempting to construct each scaffold piece or laser cutting the frame at this scale.
Laura Minca  (6) Laura Minca  (8) Laura Minca  (9)Laura used wood stain to define the site from the surrounding area. this was achieved by masking the edges and applying more coats of stain to darken her site footprint.

Laura Minca  (11) Laura Minca  (12) Laura Minca  (15) To create the tent like canopy above each area of the site Laura used a vac-formed sheet to create the draped fabric aesthetic desired. This was achieved by creating a former using Ureol Modelboard which was sanded to the correct shape then placed on a base to sit on the bed of the vac former.Laura Minca  (18) Laura Minca  (19) The vac forming process involved heating up styrene vac-forming plastic which is then suction formed around any given shape.Laura Minca  (20)

The completed form is then taken from the bed and trimmed to size for use on the model. Laura Minca  (21)

Laura Minca  (25)Further detail was added to the internal floor spaces using laser cut cardboard fixed to plywood floor plates. This plates were then assembled and slotted into place into the main framework before having the roof canopies fitted above.

Laura Minca (3) Laura used brass etched scaled figures to convey the use of the spaces with figures dotted around the site and near the context. Small pine cones were used to represent trees which always works well with wooden based models. These can be found on various trees and bushes around campus! Laura Minca (4)

Once all scale elements were added and surround massing models were made using Jelutong block, the model was moved into the studio for photographing.

Laura Minca (3) Laura Minca (19) Laura Minca (24) Laura Minca (45) Laura Minca (84)

Deansgate Locks, Manchester Site Presentation Model By Aayu Malhotra

This site looks at a stalled site on Deansgate Locks. 6th Year MAarch student Aayu was asked to regenerate the development and look at potential future uses of the space. He decided to introduce small business’s to the site which would over time, expand and bring further investment to the area. The building form allows for expansion of the development by leaving the top of the building open for additional floors, formed around the core, to be added at a later time.

Aayu (5) As with Aayus other projects, he preferred to convey his design by making a highly detailed model, predominantly by hand, to emphasise the craftsmanship of the individual spaces in the development. Aayu much preferred this method over digital renders which he believed to be more corporate.

Aayu (9) The design is made of lightweight materials to allow for quick construction of additional areas. This idea was carried over into the design of his model with the main materials being paper, card, timber and fabrics.Aayu (11) The majority of the 1:100 scale model was designed and built by Aayu at home. Another benefit of using simple lightweight materials is the ability to make parts without the need for machines and specialist facilities. Aayu (13)

Scale figures were added along with items of furniture that indicate the potential use of a space. These items help to avoid repetition across the model and really bring out the intended mixed use concept. Aayu (12) Aayu (19) Once scale detail had been added the model was photographed in our studio and is now ready for the end of year show.Aayu (24)

Aayu (2) Aayu (15) Aayu (19) Aayu (20) Aayu (21) Aayu (22) Aayu (23)It’s very refreshing to see a model so lovingly hand crafted using minimal input from CAD driven machines. More like this please everyone!

Manchester City Master Plan Model, Architecture of the Processional City, Atelier VI

Back at the start of December we covered one groups start on their master plan block model of part of Manchester City Centre during the still ongoing spate of block models being made in the workshop. The project was part of ‘Architecture of the Professional City’, Atelier VI at Manchester School of Architecture. You can find out more about their studies on their Blog by clicking here.