Making the U.o.M. Snowglobe Model – A Guide to ‘Chemi-Wood’ Block Modelling

Exterior of Manchester UniversityThis project was given to me from the University estates department who were wanting a representation of the University of Manchester’s Whitworth hall and tower that make up the Oxford road side of the old quadrangle complex. The model would then be used in a snow globe for a Digital Christmas Card sent out across the University.

As the project required the model to be waterproof I decided it would be a good opportunity to record the process of using Ureol, commonly known as Chemi-Wood or Model Board.

Whilst in this case I am using Chemi-Wood as the main material, the methods used are applicable to any kind of massing representation – this one having perhaps more detail than normally required due to its purpose.

Here is my step by step record of the process undertaken for around 5 hours over a period of a week when ever I found any time! I have included my rough sketches and thought process description to help understand how I chose to tackle the difference aspects of this representation.


 

Planning

The model had to be a maximum of 100mm long to allow it to fit within a snow globe. Firstly I scaled the CAD Drawings based on the required size and printed a plan and elevation to directly reference the model components as building each one. Having an accurate plan to work to is essential. Always check and double check it is printed to the correct scale.

DSC05143With the printed plans as a guide I began dividing the model into components to be massed out, thinking in my head and in turn on paper about any pitches or areas that may need to be removed later.

By identifying commonly sized components, or close to the same size you can then best determine how to cut your material to avoid waste. In this case the height and width of two components happened to be the same so I started by cutting a piece at 22mm wide.

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Primary Massing
Cutting a block at 22mm width gave me a thin sheet off-cut which will come in handy later. Always keep hold of thin strips like this as they prove very useful when making add on details.
DSC05146 By putting a piece of sandpaper on a flat board we can easily sand the sawn face of a piece of material to flatten off any saw marks. With chemi-wood in particular this is very straight forward and gives a smooth clean finish. Taking the time to remove saw marks at each stage of production will save time in the long run and helps to keeps the resulting components looking crisp.

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Creating a pitched roof

Accurately marking on guides when creating a pitch is recommended as without them we can only presume the machines are set accurately which, given the number of people who use our workshop, is often doubtful!
DSC05155 DSC05156 Once the piece has been cut to the required length it can then be sanded down using the disc sander, in this case removing the minimal amount of material on the edge to create the pitch as marked. Blocks with larger areas to be removed should be cut down closer to the marked line before sanding to avoid burning out the sanding discs and creating excessive force on the machine. Note that I have marked the pitch at the end of the piece to ensure there is enough material to hold on to whilst sanding reducing risk of injury. Always check your marked guide lines as you go.

DSC05163Once the pitch is complete the piece can be removed from the block. DSC05168Smaller components that require pitches can sometime be achieved as part of a bigger block using the end of a longer strip of material as shown below. Again this was created using the disk sander and clear marking as a guide. For now this piece will remain attached until the massing detail has been added.  DSC05182The tower section was measured out from the plan and two-stage pitch added. This photograph shows the second pitch marked out ready to be sanded.

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Massing Details

The second phase of the model is to establish what details need to be added to take the blocks to a more familiar form. As with all models a level of detail needs to be established across all components. In this case the archway and repeated buttress’s are of notable presence and so provided the basis for the other relief details as sketched below.

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DSC05191Using the thin sheet off-cut from the first block, I took the elevation details of the archway from the CAD drawings and created the archway port surround and turret details by layering the two. Laser cutting is great for such intricate parts but presents a problem when finishing due to the fragile nature of such thin components. Care had to be taken when sanding off burn marks so spare components can come in handy if there are any breakages. DSC05193I used a medium thickness cyanoacrylate ( AKA superglue) to carefully stick the layered details together. Only small spots of glue were used and can be applied with the end of a cocktail stick or a scalpel blade.

The layered up arch facade can then be applied to the primary massing from earlier taking care to center it as marked. DSC05194Once fixed the material filling the arch is removed in notches using the bandsaw – controlled easily thanks to the extension we have the piece built on with a push-stick. DSC05197After hand filing the curve of the arch using a round file the piece can be parted off from the extension and excess material carefully sanded back to the marked line taken from our printed scaled plan. DSC05201


STOP PRESS! MISTAKE DETECTED!DSC05212Leaving the workshop and walking down past the Whitworth Hall after work I noticed an error with my model so far in that I had wrongly presumed the footprint of the tower made up the entire plan print as shown. This in fact turns out to be wrong and the tower makes up just over half of the block footprint.

No need to panic!

By reviewing the plans and evaluating the oversight It was easily rectified by modifying the piece using the top center as a reference to reduce the overall size and roof pitch line. We all make mistakes so no need to worry if this happens when your making your model – its how we handle them that matters.

What ever you do don’t ignore it – especially if it is connecting to another part of the model as there is always a knock on effect with errors that will come back to haunt you! Try to take the time to do it right even if it means starting again.

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 Massing Details Continued

The next details I made were the spires at the top of the towers on the end of the Whitworth Hall. to create these I took a square section of chemi-wood from the offcuts and fixed it into the chuck of a hand drill.

DSC05216Taking note of the required 6mm radius I used 120 grit sandpaper to reduce the section down to a dowel, regularly checking the size with calipers.

DSC05217Once the dowel was a 6mm I marked on the low point of the spire and used a needle file to reduce it down to a point before adding a shoulder at the base. The completed spire was then removed with a junior hacksaw before being lightly sanded flat at the base.

DSC05219DSC05223DSC05224The buttresses along each side of the Whitworth hall were made using thin strips that were layered up (shown below) on top of each other having been cut to the specified step heights.
DSC05253 Once fixed I put this piece into the laser cutter and cut strips through the joined layers creating the buttress profiles. These were then carefully fixed in place using small amounts of cynoacrylate.DSC05256 Finally I simplified the corner spires that finish the tower using the CAD Files maintaining the same basic level of detail as shown on the other detail elements. These were then fixed in place before fixing the tower to the archway and Whitworth Hall sections. DSC05260The model could now be painted easily due to the smooth surface finish of the components. In this case the raw material finish sufficed and it remains its clean colour.

DSC05261The completed Model was then fixed into a snow globe to be used for University of Manchester marketing.

Hopefully this guide will give some useful pointers for your future models. If there’s anything you are uncertain about doing yourself always ask. – Scott

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

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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‘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.

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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.

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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)