Tag Archives: Pete Lee

Mecanoo B.15 Modelmaking Award 2016 Winners

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Final judging for this years Mecanoo B.15 Modelamking awards took place on Friday afternoon ahead of the end of year show opening.

Representatives from Mecanoo were Laurens Kistemaker, Paul Daly, Oliver Boaler along with former MSA Student and previous award winner Sara Hammond. Representing MSA were Jim and myself and Dr Ray Lucas.

Judging awards

As with last years award judging looked at the overall quality of the finished models, The effectiveness of their response to the brief and the integration of modelmaking into each students designing process. This proved once again to be very tough and created a fantastic post-marking deliberation over the final results.

“I was pleasantly surprised by the efforts and quality of the students work, which therefore made it really hard for us to pick just 6 winners. We covered both sides (skill and representation of the brief) of modelmaking with a judging team of 3 modelmakers and 3 architects. I hope we as mecanoo together with Jim and Scott have contributed to push the continued importance of modelmaking in architectural learning and practice.”

– Laurens Kistemaker 

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Prizes were presented by Laurens Kistemaker and Professor Tom Jefferies to the winners who were as follows:

1st Prize MArch: Daniel Kempski & Peter Lee

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2nd Prize MArch: Natalie Dosser & Diana Muresan

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3rd Prize MArch: Sam Beddingfield

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1st Prize BA (Hons) Architecture: Ciara Tobin

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2nd Prize BA (Hons) Architecture: Akhil Mathew

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3rd Prize BA (Hons) Architecture: Daniel Vella

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We would like to thank all at Mecanoo for their continued support of this award which has already built on last years success with another quality display of projects.

Congratulations to all who made the hard earned short-list and eventual winners! We hope you will continue to employ the use of modelmaking in your learning and future careers whatever they may be.

Scott and Jim at B.15

U.S.E. Dortmund 1:1250 Masterplan Model

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The focus of this year’s U.S.E. atelier is the city of Dortmund, Germany. I was fortunate to be able to take part in the study trip that saw the group, both 5th and 6th years, exploring and documenting the proposed site along with several post industrial sites. It was agreed early on in the trip that a masterplan model should be created for group discussions throughout the year and as a center piece for the end of year show taking place next June.

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“After returning from Dortmund, U.S.E. split into site analysis teams. alongside research groups, whose work was collated into a large compendium document, we were tasked with the fabrication of a physical masterplan model of the Union Quarter. 

A scale of 1:1250 was chosen due to material constraints, fitting the width of a 2440x1220mm MDF sheet. For an appropriate portrayal of information at this scale, we largely focused on the massing and blocking whilst acknowledging the railway lines, running at a lower level to the rest of the site and splitting the Union Quarter into three parcels. Other than this drastic level change, we chose to ignore other topographical features of the area; whilst the site features a gradual incline towards the westpark, this would be largely negligible at 1:1250 and would have added considerable time and effort to the construction process.

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To demarcate the site boundary, we chose to raise the union quarter on a plinth above the main model base. To economise on time, we also chose only to build massing on this plinth; outside the site boundary, roads and buildings are indicated by engravings on a plasma cut mild steel sheet. This was left outside over a weekend to rust, acting as a material metaphor for Dortmund’s steel heritage, which is highly prominent on site.

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The raised Union Quarter plinths are produced from 12mm clear acrylic recycled from display cabinets at the Manchester Museum. laser cut polystyrene sheeting was plastic welded on top, forming pavements and streets, before being spray painted white. the plinths were originally constructed from cnc’d MDF, though these were scrapped as we were not satisfied with the finish or the joining with the polystyrene sheets, which did not stick well to the timber.

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DSC05061For the massing, we were advised by workshop staff to use chemi-wood, a resin-based material known for its ease of cutting and crisp finish. buildings were hand cut; whilst being a lengthy process, we were able to add a greater level of complexity to blocking than would normally be possible with the laser cutter, such as pitched roofs.

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Blocks were then spray painted with shades of white and grey to identify their general usage, broken down into residential, public, commercial and industrial. though nearly finished to a presentation-quality standard, in future we are looking to add trees to the model as the union quarter is a particularly green urban area.”

– Daniel Kempski & Peter Lee December 2015

The main base feature of this model was the engraved 2mm thick steel sheet. On it’s arrival the steel had a light coating of oil to prevent rust which, unusually when it comes to the use of metal, was exactly the finish the group didn’t want!

DSC05104There were several discussions about how to best subtly age the steel which were all trial and error with regard to retaining the engraved detail. It was decided to clean the oil from the face of the steel and leave it outside over the weekend having been lightly sprayed with Epsom salts.

image1At best we thought it may have started to surface rust by Monday morning. To our surprise and temporary horror the rust had completely coated the sheet in the heavy rain that had ensued. Thankfully the group were able to rub back the rust with fine grade sandpaper and the effect turned out to be better than was hoped for.

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3The buildings were fixed to the floor plates and the arranged in position on the steel base. Only trees remain to emphasis the green spaces across the site but have been left off for now until the final assembly closer to the end of the year. – Scott

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Pangaea Stage Set for Manchester Academy by Peter Lee

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Towards the end of the first semester 5th Year Student Peter Lee was approached by The University of Manchester to design and make a large scale set piece for the student run festival, Pangaea. The event was held at the Manchester Academy and runs across many venues in Manchester. Pete described the project for us:

 ‘The event’s theme was ‘Space Odyssey’ so designed a ‘wormhole’ with an elevated DJ booth as a focal point in the centre. Throughout the project I was working closely with Academy staff as the design had to both be both the right size for the room and mountable on the existing lighting rigs on the stage. 
For ease of fabrication decided to use 12 identical interlocking triangle frames to create a portal, which sits in front of an aluminium circle truss with fabric panels to give the appearance of depth. The design was also created in coordination with a projectionist, who required a scale model for testing visuals on. By mocking up the design physically at 1:10 it gave me a really good idea of the structural issues faced by hanging a 4m wooden portal and helped me to design a bracing system’

Pete Lee (2)The model was made using components that would eventually come to life as large scale versions looking virtually identical. A wooden frame was used to support a focal hub and fabric was then stretched to the back of the segmented aperture-like ring at the front of the piece.Pete Lee (5)Once the design has received approval for full size production Peter went about turning the concept model into a full scale design. The triangular sections were each cut out using the larger CNC cutter at MMU before being transported across to B.15 for additional pieces to be added.

Peter describes his reasoning for using CNC cut components for the full scale prop:

‘For the 1:1 build I found the CNC machine a really useful tool as it would have been nearly impossible to replicate twelve identical panels by hand – absolute precision was really important throughout the process as the projection maps only had a few cm tolerance for error. Although the digital methods I used were really basic (Sketchup) it was incredibly useful for working out the angles for the panel structure. 
Another really important part of the project was getting logistics spot on – was quite limited for time due to university commitments so efficient use of workshop time was crucial and greatly aided by digital design tools. The panels were prefabricated over a month before the event, which meant the assembly was pretty straightforward.

Due to the obvious weight difference in the full size version of the prop each component had to be well built to avoid any accidents. Each triangular section was reinforced with pine timber baton which was glued and screwed into place.

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‘Good communication with other parties was also key as the success of the project was highly dependent on fittings in the Academy and the synchronisation with projections. Resolving issues far in advance meant the on-site build and event itself ran smoothly.’.

IMG_0143In place at the venue, the stage prop served as the focal point for the nights performers and was lit by constantly changing projections and light displays. The image below shows the piece on stage before the event began. The image below show the finished piece during the live event.10887278_461189607366949_5284888234544424655_o 10955797_461189257366984_3543354359810081653_o 1606453_461189224033654_1058877598167468098_oComparing Peter’s prototype to the completed piece shows very little structural difference and is yet another example of how a test model can serve to prove a design idea. Both the development and final versions of the project will make great additions to Peter’s portfolio with the two conveying his design thought and testing processes to a potential client or employer. You can see more of his work here.