Month: February 2018

Ideation
Fiona x Shanelle

Feedbacks gathered the last session:

• What is the overall form of the structure? Shade, trellis and pangolin-inspired form, are all three combining well? Which one is more conceptually relevant, more representative of NTU, more promising of good results?
• A function is defined by its creator and you define it. The function doesn’t necessarily have to be solely functional and practical. For instance, the main purpose of a vase isn’t to hold flowers but to serve as a decorative piece.
• Focus on bringing out the essence of the pangolin if that’s what you all would like to remind people of, that pangolin resides here. For instance, translating the adaptability characteristic of the pangolin scales into a sculpture, using a singular modular to create an organic form.

Questions we asked ourselves:

• Perhaps we could look into unique key characteristics of pangolin to bring out the essence of pangolin? (Based on the feedback previously, modular repetitive structures are seen everywhere in nature organisms so what’s so unique only to pangolin itself?)
• How can we integrate nature? Perhaps such that when a natural phenomenon meets the man-made structure (our sculpture) it will create a movement that mimics the adaptability nature of the pangolin scales when in an encounter with their predators. (We are in the midst of researching on materials that react to nature. By nature, we meant water, heat, light or touch etc.)

More Design references
{Note: References might not be directly related to what we plan to do}

Water Pachinko – Kenya Hara

Designed by Japanese designer, Kenya Hara, these rolling water droplets on the table works like Japanese pinball, also known as pachinko.The spherical water droplets silently navigate their way down the complex white paper structure coated with super-hydrophobic substances.The numerous water droplets may divide at one point, unite at another or fall into the hole, thereby creating a new experience and excitement for the senses. 

Water Reactive Architectural Surface – Chao Chen

Designed by Royal College of Art design student, Chao Chen, this wood laminate material bends in response to the humidity in the atmosphere, rain, and moisture. This biomimetic material is able to change its shape without using any electric system or mechanical structure. The individual tiles curl and open in dry weather to let the light and breezes in and flatten out when it rains to protect the occupants. 

Ideation

Direction 1 

A quick recap of our previous post, we wanted to design a sculpture that functions as both a trellis and shade, balancing the positive and negative space with a suitable modular structure. The diagram below shows one of our form explorations for our sculpture. The skeleton structure is built using a singular module that eventually forms to bend in an organic shape. With this characteristic of adaptability, the sculpture could be placed anywhere in school as it can be bent and adjusted according to the surroundings.

Direction 2 

What are other ways to show the relationship between nature and man-made structure? Keeping in mind that nature ain’t just greeneries around us but climate, humidity and weather such as sunlight and rain are considered as nature as well.

When in contact with man-made structure, can a natural phenomenon create an interaction that mimics the curling up dynamism of a pangolin?

As rain droplets falls on the structure, the weight of the droplets orientate the module, the droplet slides down to one end and landed on the next module right below, slowly descending and making its way down. The interaction between the rain and each piece of modules together formed a reaction in response to intensity of the downpour – showing progression of the rain.

Additionally, the structure comes with an embedded stopper in the supporting rib to prevent the modules from rotating in another direction. Each module are arranged in a descending manner such to control the flow of the water to reflect the integrated and collective effort of each module contributing to the reaction in response to the rain droplets.

Other possible Direction 

What about the interaction of material and nature?

As inspired by how pangolin curls up when faced with threat, 

We have been looking into other possible methods of creating the rolling and unrolling dynamics through the interaction of material and nature. – Of how material behaves when interacted with nature. We are reminded of how paper curls up due to the swelling when it comes in contact of water and went into researching more about it.

We came across an article that shares:

“how tracing paper curls up when placed on the surface of the water. Over time, the swelling front of the paper that comes in contact with water propagates through the thickness of the paper, the paper gradually uncurls itself and eventually straightens out.”

We gave it a try! We felt that the drawback in regards to paper was however the durability and maintenance of it, be it for wet/dry conditions. And the paper doesn’t curls back when it dry unless its fully drenched.

We further researched into other materials and found something interesting that we could possibility look into! All of us are aware that a certain kind and thickness of metal/wood reacts to climate conditions. While researching, we came across the possibilities of using thermal expansion to create interactions.

Such as Bimetal aka thermostatic metal. So,what’s a bimetal?

“Bimetals are hence layered metallic composites, most common in the form of strips or sheets that consist of at least two tightly bonded components with differing thermal expansion rates.”

While researching on the feasibility, we noticed that there are some projects out there which uses bimetal coils to create movements via temperature such as the following:

The metal strips curl upwards when heated, allowing air to pass through. The full project description can also be seen here. 

For this direction, we are still in the midst of figuring it out, we will have to get the materials and test it out via sunlight to see if it works before we work out on the possible structure to supports the entire reaction. 

References

https://inhabitat.com/astonishing-water-sensitive-building-material-acts-just-like-pine-cones/

https://www.archdaily.com/887326/digital-manufacturing-to-experience-real-scale-architecture-quickly-and-with-limited-resources

https://designingthinking.wordpress.com/2008/08/27/01-nature-water-pachinko-by-kenya-hara/

https://bott2013studio.wordpress.com/2013/09/12/kenya-hara-water-pachinko/

Research
Fiona x Shanelle

Objective

NTU is surrounded by nature and greenery, however, many students spend most of their time indoors in school. Prior research has shown that nature and greeneries offer an opportunity to relax our directed attention, thus providing relief from mental fatigue. Exposure to nature greeneries repulses depression in adults.

Our main objective for this project is to improve the quality of life and mental well-being for students in NTU by creating an opportunity for interaction between human and nature without invading nature.

Story and insight

What is unique about NTU? Surrounded by much greenery, NTU is also home to wildlife such as wild boars, pangolin, hornbill and even snakes. Wildlife is so common that you may even spot the “Caution! Animal Crossing” signs on the roads leading into the campus itself. However, whenever trees are being cut down to make space for new facilities and infrastructure around the school, endangered wildlife residing around NTU are also slowly losing their natural habitat.

Research – Sustainability in NTU

To start off, we read up about the current ongoing efforts by Ecocampus to maintain sustainability in NTU.

Ecocampus

The EcoCampus initiative is an ERI@N Flagship Programme and is jointly hosted by ERI@N and Sustainable Earth Office in NTU. They aim to develop a novel campus-wide sustainability framework with demonstration sites to achieve 35% reduction in energy, water and waste intensity by 2020, making it one of the world’s most eco-friendly campuses in the world. As a part of EcoCampus’ renewable energy efforts, NTU fulfills 3-5% of its energy demand from solar panels installed on rooftops.The solar panels have 5 MWp capacity and save NTU about $1.5 million in annual electricity costs.

You may read up more about Ecocampus’s projects for here.

Design References

Interesting insight about plant technology.

Inspiration.

Apart from our main objective of improving the interaction between nature and us, we would also like to draw attention to the animals residing in NTU. Amongst all the wildlife in NTU, we decided to focus on a particular one that is special as it is rare and critically endangered. We looked into the anatomy and movement of a Pangolin and created an infographic as shown.

The movement of the scales of the pangolin allows air to circulate, regulating its temperature. The arrangement of the scales in an overlapping hexagonal pattern around a central scale ensures that no part of the pangolin is exposed when it curls up. The arrangement also enables the scales to slide over each other, making the armor very flexible.

Looking at the anatomy of the Pangolin, focusing especially on their scales, the keywords that we have derived are Flexible, Repetition, Modular, Airy, Layered and Interlocking, Concealed vs Exposed. We would like to refer to these keywords as a guide for our sculptural design.

Further research 

In addition, we looked into ways we can create movement with modular structure and chanced upon very interesting techniques.

This 3D printed biomimicry chair is designed by Dutch designer Lilian van Daal. By manipulating the material density through the design, the designer managed to introduce a spongy quality to the otherwise stiff material.

This Solar Bytes pavilion, designed by assistant professor, Brian Peters, highlights the potential of new approach available to architecture: robotic arms, 3D printing, smart technologies such as lighting sensors, and solar energy.

Concept

A quick recap, our keywords that we have derived from our inspiration are Flexible, Repetition, Modular, Airy, Layered and Interlocking, Concealed vs Exposed. In line with our objective to integrate nature and maximize green space in this tight urban environment, we want a sculpture whereby nature can nurture within, whereby air/wind can flow not just over but through it just like the scales of a pangolin. The following is our initial design.

Current material consideration: Timber.
Location consideration: Near Nanyang Auditorium 

Our next explorations

• Look into how the hexagonal patterns could interlock, the details of the structure.
• Select what kind of plants to focus on and study how they grow.
• Sustainability: Look into how a stronger structure could be created in terms of the materials that we could use and the design of the structure.
• Scout for other possible locations
• Look into ways to incorporate the idea of ‘harvesting energy’ into the sculpture.
• Improve the design of the sculpture
• Research more, look deeper.

Feedback

1. Consider the ‘why’ – Why are you inspired by the scales of a Pangolin, does it served a functional purpose of why and how it should be implemented into NTU and your sculpture. Where in NTU will need such a function?
2. The construction of the modularity in the sculpture? 
3. It is not necessary to incorporate technology into this concept, adopt natural resources/material as there’s a differentiation between natural energy and man-made energy.
4. Think deeper into the usage of material. What are some sustainable materials?
5. Keep in mind that 3D printing technically isn’t really sustainable with consideration of the tropical climate of Singapore. The material might not endure wear and tear with the temperature of Singapore. 
6. Tap on the keywords you have identified, dive deeper and be more specific.

References
https://www.reuters.com/article/us-health-adolescents-greenery-depressio/being-around-natural-greenery-may-cheer-up-even-adolescents-idUSKBN1F72LG

http://www.momtastic.com/webecoist/2010/05/03/growing-green-art-made-from-marvelous-moss/

http://adamkalinowski.com/home,12,green_sculpture.html

https://www.dezeen.com/2015/01/30/movie-lilian-van-daal-3d-printed-biomimicry-chair/

https://www.dezeen.com/2017/11/15/living-light-ermi-van-oers-microbial-energy-photosynthesis-lighing-lamp-good-design-bad-world-dutch-design-week/

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3949401/ – Photosynthesis under artificial light

https://www.theguardian.com/cities/2018/feb/05/walkable-cities-reduce-blood-pressure-study-finds

http://ecocampus.ntu.edu.sg/Current-Projects/Pages/CurrentProjects.aspx

http://www.e2singapore.gov.sg/DATA/0/Docs/NewsFiles/ENVISION%20Issue%209%20-%20birds%20eye%20view.pdf

http://www.straitstimes.com/singapore/education/ntus-new-230m-residential-sports-halls-will-be-eco-friendly

https://www.archdaily.com/772241/this-3d-printed-pavilion-provides-shade-during-the-day-and-illuminates-at-night