Monday, 17 November 2014

Church of Light Movie and Strategy Statement

https://www.youtube.com/watch?v=5vX5cPwC0UU


To highlight the complexity inherent within decaying structures, I utilised 22 unique textures and various combinations thereof; consequently developing the organic materiality of the structure's decay appropriate to a lush environment. The preservation of the cross defies its immediate surroundings. This juxtaposition is emblematic of humanity's struggle to control its environment. This motif is played upon and reiterated by the impeccable condition of the book as its symbolic value communicates the longevity of human ideologies. In this manner, the church's value transitions from a place of congregation and celebration, to a testament of human existence. However, as a manifestation of human existence the church is unable to survive the ravages of time. The church's final stand ironically crumbles in the effervescent ray of hope. Tempore praevalet.

Friday, 14 November 2014

WEEK 6 - How the Landscape is changing

 
One of the criteria for meeting a good grade is to change the landscape to mould around your decayed building.  I have been changing the direction of the sun to maximise the opportunity of creating strong sunlight through the cross of the church.  I have flooded the terrain to show how the hurricane has effected the location.  The last image shows how I have started to place dead logs around the landscape in positions which mould around my building.  The dead trees that have fallen on the church of light are bushes from cryengine.  I have angled them and placed 'sliding earth' around them to create the image that the tree has pulled up the roots and ground beneath it.
 
 




WEEK 6 - Blending further and Lecture Review

 
 
These pictures show how my colour blending translates into effect texture blends on cry engine.
 







Lecture review


When the image of the algae in the pool came up, it instantly clicked that I needed to flood my landscape with water from the hurricane . As my building is amongst dense jungle vegetation, this will provide an ideal situation where plants grow underground and weaken a building. I will also try to incorporate some concrete spalling.

WEEK 5 - Rayfire and Lecture Review


The following YouTube links are an example of how I'm getting ray fire to work.  I shoot a normal wall to show how it isn't going to break and then I shoot the breakable part of the wall to show how it can crumble.

https://www.youtube.com/watch?v=-SdB5CVE758

https://www.youtube.com/watch?v=uKoIzMyMI4w


Lecture Review:

From Week fives lecture I was able to see what can be achieved with the ray fire tool.  The inspiration I took from the lecture was the possibility of crumbling a major part of my building.  I want to focus on crumbling a piece of concrete close to the cross to create the feeling that faith is all that's left.

WEEK 4 - Making rayfire work

 
 
 
 The link to my video example of ray fire is above.  I was able to successfully destroy a section of my wall and I plan to do a larger section of the wall in my video.

WEEK 5 - Youtube Videos and Lecture Reflection

The following 5 disaster movies are inspiration for the kind of intro movie I will be screening.

http://www.youtube.com/watch?v=5jcrq58gR-Y&list=PLByk4meoMBS8B-jofx_k3KRO9oIOGYm7h

http://www.youtube.com/watch?v=RHV1wY5VMhc&list=PLByk4meoMBS8B-jofx_k3KRO9oIOGYm7h&index=3

http://www.youtube.com/watch?v=BMJl92Ewuq0&list=PLByk4meoMBS8B-jofx_k3KRO9oIOGYm7h&index=5

http://www.youtube.com/watch?v=gvSFCUpRrhA&index=6&list=PLByk4meoMBS8B-jofx_k3KRO9oIOGYm7h

http://www.youtube.com/watch?v=CvEtjb61q1I&list=PLByk4meoMBS8B-jofx_k3KRO9oIOGYm7h&index=9

WEEK 5- Texture Blending

 
Below are some examples of me applying the blend layer technique to a simple concrete wall and my metal frame work for the windows.  As you can see I started by subdividing the faces of the object I wanted to materialise.  Subdividing the faces of each object adds greater detail to the final product because you can achieve better colour differentiation.  I Applied a black colour to the surface and then did all the materialising In cryengine.
 
 
 







WEEK 4- Progress Pictures , 'My Direction' and Lecture Reflection

 
 
My plan for the decay of 'the church of light' is to show how plants can grow into concrete and cause structural problems.  The majority of the building will be covered in moss to show how nature is consuming the building.  Half of the building will be collapsed, I don't want totally decay the entire building because I think that is an immature option.  The half of the building which is under decay will be effected by a tree which has fallen on the structure.  I will try and keep some furniture still present in the building to give an idea of what the environment used to be like.  small details like the metal cross, lights and reinforcement poles will be highlighted in the video.
 





Lecture Reflection:

In this lecture we were shown how particular built buildings react to either natural disasters or human destruction. Russell had said that typically in brick buildings they tend to break apart at the mortar joints because all the moisture is gone and they basically turn to sand.

Saturday, 18 October 2014

Monday, 13 October 2014

WEEK 2 - Individual elements and Lecture Reflection








Lecture Reflection:

Individually focussing on materials and visually analysing how each material can decay was a valuable lesson to watch.  It was interesting to see how concrete can spall when the inner steel reinforcement rusts.

WEEK 2 - Material Analysis

Concrete

 
How is it Made?

  • Concrete in its simplest form is created from aggregates, sand and water. The aggregates are used to form the paste, the sand is used for texture and the water holds it all together. In ancient times, hay or straw was used for the aggregate. Modern concrete is more complex.
    Concrete today is composed of a variety of dry materials such as cement, fly ash and sand. These are then mixed with water to form a hardened paste mixture which is used to form a variety of shapes and forms.
    Cement, which is the main component of modern concrete, is made up of materials such as limestone, clay, gypsum, chemical additives and gravel. The sand used in concrete is course sand made from ground glass.
  • The mixture of modern concrete, as stated above, contains aggregate material. This material is often various sizes depending on the future use of the concrete. The aggregate material can use many types of stone, as listed above, but can also use recycled material such as oyster shell or waste material from coal-fired power generating plants.
    Concrete consists of two essential parts, the filler and the binding. The filler is either a fine or coarse mixture such as sand while the binding is the cement and water. The binder forms a glue to hold the filler together. To make concrete, the correct amounts of both dry material and water must be added. Like baking a cake, concrete requires proper measures and methods to ensure a thorough blend and strong setting to hold together. This mixture is usually along the line of one part cement, two parts sand and three parts stone with enough water to form a paste.
How Long will it Last?

The life expectancy of concrete (maintained) is well over 100 years.  However concrete that has been effected by a natural disaster eg: flooding or Hurricane will decay very fast.

Degradation

Concrete degradation may have various causes. Concrete can be damaged by fire, aggregate expansion, sea water effects, bacterial corrosion, calcium leaching, physical damage and chemical damage (from carbonatation, chlorides, sulfates and distilled water). This process adversely affects concrete exposed to these damaging stimuli.

The expansion of the corrosion products (iron oxides) of carbon steel reinforcement structures may induce mechanical stress that can cause the formation of cracks and disrupt the concrete structure. If the rebars have been poorly installed and are located too close to the concrete surface in contact with the air, spalling can easily occur: flat fragments of concrete are detached from the concrete mass by the rebars corrosion and may fall down.

Damage can occur during the casting and de-shuttering processes. For instance, the corners of beams can be damaged during the removal of shuttering because they are less effectively compacted by means of vibration (improved by using form-vibrators). Other physical damage can be caused by the use of steel shuttering without base plates. The steel shuttering pinches the top surface of a concrete slab due to the weight of the next slab being constructed.

What are the pros and cons of concrete?

A concrete home can cost more to build than a wood home, but it could make up for that by keeping cooler than a wood-framed house when it’s hot outside. 
 
Concrete, because it is solid and is not food source for termites, could cause you fewer worries over pests. Some insurance companies like that so much that they give discounts to homeowners whose houses are made from concrete block.  
 
Concrete also is a good sound-proofing material; in fact, it can repel sound waves. And the homes are so sturdy that they can last for hundreds of years.
  
Still, a concrete block can be prone to settlement cracks and to efflorescence, those white marks that appear when concrete gets wet and then dries quickly. And building a masonry house can be more labor-intensive that putting up a frame home.

 

Steel


How is it Made?

When iron is smelted from its ore, it contains more carbon than is desirable. To become steel, it must be reprocessed to reduce the carbon to the correct amount, at which point other elements can be added. In modern facilities, this liquid is then continuously cast into long slabs or cast into ingots. Approximately 96% of steel is continuously cast, while only 4% is produced as ingots.
The ingots are then heated in a soaking pit and hot rolled into slabs, blooms, or billets. Slabs are hot or cold rolled into sheet metal or plates. Billets are hot or cold rolled into bars, rods, and wire. Blooms are hot or cold rolled into structural steel, such as I-beams and rails. In modern steel mills these processes often occur in one assembly line, with ore coming in and finished steel coming out. Sometimes after a steel's final rolling it is heat treated for strength, however this is relatively rare.

How Long will it Last?

Thanks to exceptional resistance to fire, corrosion and pests, steel framed buildings are the first choice for extreme environmental conditions. Because steel doesn’t need treating with pesticides, preservatives or glues, it’s also safer for people handling and living or working around it.

Degradation

Iron and steel, the most commonly used metals, corrode in many media including most outdoor atmospheres. Usually they are selected not for their corrosion resistance but for such properties as strength, ease of fabrication, and cost. These differences show up in the rate of metal lost due to rusting. All steels and low-alloy steels rust in moist atmospheres. In some circumstances, the addition of 0.3% copper to carbon steel can reduce the rate of rusting by one quarter or even by one half.

What are the pros and cons of Steel?

Steel buildings are the most cost-effective and structurally-sound structures in architecture today. To date, it is hard to find an example, besides the World Trade Centre Towers, of a steel building that has collapsed. Not only are steel metal buildings cheap to build, but they are also resilient, resisting the elements, termites and even natural disasters like earthquakes. Reinforcing with additions or heating/cooling upgrades is easier than with wood structures too, experts say.
 
There are many pros to erecting steel buildings, versus traditional wooden edifices. For starters, steel is lighter than wood, concrete and brick. It can't warp, expand, contract, absorb water, feed termites, rust, catch fire or become a breeding ground for fungus. Since most steel is flame-retardant, many insurance companies reduce rates for home owners who choose steel building products. The government also recognizes steel as an energy-efficient, eco-friendly choice, so they reward citizens with tax credits.
 
As with anything, there are a few cons to steel buildings too. First, not all builders are familiar with building metal structures, let alone constructing to the latest standards, using the most up-to-date computer software. Special tools are required to work with this material, which not every builder will have. They will need to employ very specific designs to brace the steel correctly. Additionally, some metals are coated in oil, which may cause a toxic odour while working with it. The biggest disadvantage of working with steel is that it is an excellent conductor of heat, so in colder areas, the heat can be absorbed into the structure and quickly lost. Mould also has a tendency of growing around steel studs in the winter. To combat the energy issue, home owners can use a double wall system or high efficiency insulation to prevent heat transfer.

Timber


How is it Made?
  •  selected
  •  harvested
  •  trimmed
  •  transported to mill
  •  rough cut
  •  mill cut
  •  cured and dried
  •  the by-products are sent for other uses (particle board / plywood) 
  •  transported to fill orders

How Long will it Last?

20 years lucky ....15 maximum for treated wood, now when you retreat it over and over you keep weakening it further and further because all wood preservatives soften the fibres and naturally the result is crumbly wood but all wood preserved not exposed to the environment could outlive you, in other words the fence posts you put into the ground will rot above ground and 50 years later the part under the ground will likely still be as fresh and new as when you put them into the ground ...even a treated wood foundation for a playhouse or shed will still be like new

Degradation

Wood is subject to degradation by bacteria, fungi, insects, marine borers, and climatic, mechanical, chemical, and thermal factors. Degradation can affect wood of living trees, logs, or products, causing changes in appearance, structure, or chemical composition; these changes range from simple discoloration to alterations that render wood completely useless. It should be noted that wood can last for hundreds or thousands of years, as demonstrated, for example, by furniture and other wooden items found in excellent condition in the tombs of ancient Egyptian pharaohs (see Egyptian art). Wood is degraded or destroyed not with the passage of time but only under the action of external factors.

What are the pros and cons of Timber?

Pine is an inexpensive, lightweight wood that can be yellowish or whitish with brown knots. It's often used for rustic pieces, like farmhouse-style tables.

Pros: It's low-cost, and it takes paint well, so it's great for kids' furniture. (The same holds true for birch and poplar.) Pine develops a nice, rustic patina from age and use, and it resists shrinking and swelling.

Cons: It's a softwood, so it's prone to scratches and dents.

WEEK 2 - Materials

 
Concrete
 


Roof Tiling




Thatch


WEEK 2 - Progress on Decay







Saturday, 11 October 2014

Climate Effects on Thatch

A thatched roof constitutes a very hostile environment for micro-organisms to grow; in the past hot dry summers and frosty snowy winters controlled the speed of decay, by keeping thatch relatively dry and controlling fungal growth. Periods of prolonged heavy rain in the recent past have encouraged the growth of moss and algae, not just on thatch but on tiled roofs, trees and garden furniture, with warmer winters further contributing to expanding colonisation on thatch. The present climatic conditions will shorten the life expectancy of many thatched roofs. Research carried out by Kirby and Rayner (1989) suggested that under normal conditions 2cm of a thatch surface is worn away annual by weathering It can be expected that a thatch wearing normally will be wet after rain at the surface to a depth of 2cm, but even after continuous heavy rain the moisture content below the surface will be less than17% deeper inside the thatch. It is believed that many of the current problems associated with early degradation are either inherent in the raw material or are associated with changing climatic conditions.


Long Straw      
Physical wear on a straw thatch. Algae formed a biofilm on the thatch in the winter and a dry summer has caused the film to contract. This has caused tearing and breakage of the butt ends of the straw











Reports of early failure in water reed thatch, within 4-10 years, were first recorded in 1970, and by 1983 had given rise to considerable cause for concern. At that time the majority of affected reed was home produced; researchers from the Universities of Bath and East Anglia investigated both the potential for infection of freshly harvested reed during storage and also studied the degradation process within thatch. Then as now complaints are associated with soft, weak reed, colonisation of the surface by clumps of organisms that dry out in sunny conditions and cause the surface to physically degrade in windy conditions. This surface colonisation and physical Prolonged periods of rain encourage the colonisation of the straw thatch surface with algae and mosses. These hold moisture and prevent the thatch from drying out interaction with the thatch allows the ingress of water into underlying thatch layers providing conditions suitable for further degradation of the reed by fungi and a subsequent reduced life expectancy for the roof. The main body of research on decay of lignin rich materials has been carried out on wood and wood products. However, there are only a limited number of organisms that form symbiotic functions in the decay process many of these organisms appear to naturally colonise both wood and other decaying vegetation such as thatch. In this particular form of attack, decay is not homogenous across the whole surface of the coat work, but can be seen as “bleached” areas in either zones or patches; this type of decay is not necessarily associated with high wear areas of a roof such as the junctions of dormers, valleys or gullies. Stems taken from within these patches have often lost both tensile and compression strength causing them to collapse and fragment.        

  

Monday, 6 October 2014

WEEK 1 - Exported object from 3dsmax into Cry Engine and Lecture Reflection

I decided to design a very simple house and export it into cry engine.  I was able to experiment with 3dsmax and was forced to learn the program by designing a more complex shape than a cube.
 
I changed the daylight settings in my environment to highlight the environment and imported object.
 
 
 






Unfortunately I was unable to load in the materials I created for the house.

However, I had success in loading the materials for this cube that I made







During the lecture I was taking notes on the effects of 'concrete cancer 'which significantly effect the Hashima Island.  It was interesting to see just how much concrete can decay after such a short period of time.  The sea salt from the surrounding ocean effects the concrete greatly, and I will be exploring similar effects on the Church of Light.






Church of Light Movie and Strategy Statement

https://www.youtube.com/watch?v=5vX5cPwC0UU To highlight the complexity inherent within decaying structures, I utilised 22 unique texture...