Future Textile

Fra http://www.khib.no

Førsteamanuensis Jon Pettersen har separatutstilling på Fredrikstad kunstforening. Utstillingen har tittelen ”Kast. Tekstiler i bevegelse” og er åpen til 10. april 2011. Åpningen fant sted 12. mars. Arbeidene på utstillingen er blitt til som del av FoU-prosjektet ”Future Textiles” ved Kunsthøgskolen i Bergen.

Day 1

with Hillevi Munthe, Hilde Hauan, Terese Stenhjem, Øyvind Mellbye, Nick Stevens and Amanda Steggell
16-19 November 2010

- a working session drawing on the experience and knowledge of the participants. We will experiment with muscle wire/shape memory alloys (SMA) in textiles. Soft Technology is initiated by Hillevi Munthe and is a collaboration between Atelier Nord and ”Future Textiles” at  Bergen National Academy of the Arts. The project is funded by The Arts Council of Norway, Nordic Culture Fund and Norwegian Association for Arts and Crafts.

Shape memory alloys are metalthreads/wires that can “remember” a given shape.  When cold, the wire is relaxes and flexible.  When heated to a certain temperature by water, air or electricity, it contracts to the formed shape.  Reference: http://www.youtube.com/watch?v=deLMg9JOMKc

Drawing on the experience and knowledge of the group, we will test the possibilities and limits of the SMA, experimenting with power supply, shapes and structures and effects in different textile material, using Lilypads,  Arduinos and more.

Based on previous experiences and experiments that Hillevi has had with using muscle wires (nitinol), the workshop starts with a talk about unknown variants that can affect the behaviour of  annealed (prepared for shape shifting by heating) muscle wires.

When unannealed (not shaped) the wire has a 3-5% shape shifting ability.

1. Temperature: muscle wires should be heated to 540° C. When reaching this temperature they must be immediately cooled.

Using a gas torch to heat the wires requires observing the wire, looking for “glows” and twitches to determine whether it has reached 540 degrees.

Question: how can we achieve a more accurate way of heating the wire to avoid under/over heating?

2. Power supply: voltage requirement, 0.3 volts per cm of muscle wire irrespective of diameter of wire.
We are using this information regarding volts/watts applied to different lengths/breadths of muscle wire.

Question: Experiencing “random” behaviour when applying the advised current/amp to various widths/breadths of muscle wire, what ways of testing can we find to make more precise decisions about what current to apply to different lengths/breadths of wire?

So, the problem is a combination of temperature (not being able to be precise about when the wire actually reaches 540° C) when using gas torches, and electrical current.

We need BENCHMARKS!

Solution:

Build a small gas kiln (as used in ceramics) with a thermometer that can measure 540° C.

Make test-dummies for annealing:

• All muscle wires have a length of 21 cm
• Breadths mm; 0.25, 0.38, 0.005

Make springs by coiling wire around different objects that do not melt at 540° C.

Test the annealed wires’ ability to remember their shape in boiling water instead of using an electrical current to avoid frying them.

If they work, test with a lower current/amp than suggested in the table above to find the threshold for shape-shifting.

Test with the values in the chart above.

So…

The kiln was constructed.
The samples were put inside and the kiln was heated to 45o° C (at which point they started to glow).

All samples worked when tested in boiling water.
All samples worked according to the values in the chart above when a pulsing current was sent through them.

Day 2

Activities:

• Making different wire shapes



• Working on gas torch heating techniques



• Applying muscle wires to different materials (paper/textiles) with different qualities (folds, pleats, laser cut fabrics)
• Testing how two different shaped muscle wires can work together

Videos
Laser cut fabric tests:

Self-folding origami tests:

Tagged Amanda Steggell, Atelier Nord, Hilde Hauan, Hillevi Munthe, KHIB, muscle wire, Nick Stevens, soft technology, Terese Stenhjem, Work-in-progress, Workshop, Øyvind Mellbye

Elisabeth Petch and Tora Endestad Bjørkheim, KhiB students at textile department and now exchange students in Rotterdam,
have made this nice video work with text in nature. The result is one minute video that you can watch here:
http://www.youtube.com/watch?v=2JAaPLf0ze4

8 textile and fashion students from Belgium, Denmark, Finland, Germany and Norway joined this years ETT program. The ETT program is collaboration between the Audax Textiel Museum in the Netherlands, the textile industry in Como, Italy and different European schools. It is still a pilot project and this is the third year it has been arranged.

I am a second year student at the textile studies at KHiB and has been lucky to have the opportunity to participate in the ETT program.
We spent 5 weeks at the Audax Textiel Museum in Tilburg. This year’s theme was sustainability, a challenging and important issue in today’s society and in the textile field. One of the first day we where present at the academic opening of the Design Academy of Eindhoven, where the theme was sustainability and among the speakers Michael Braungart, founder of Cradle to Cradle. During the period we also had other lectures on sustainability, useful for an insight in the issue.

The first weeks were spent on technical introductions; we were lucky to get a two days workshop with Jon Pettersen with an introduction to Jaquard weaving and construction. We also had a day with handweaving with Joost Prost to learn more about bindings and possibilities.
7 and a half days were spent in the Textiel Lab during the 5 weeks, working together with the product developers in each area. I got experience from knitting, weaving, laser, digital printing, embroidery and passement. Having the whole Textiel Lab at our disposal made it easier for us to mix different techniques and explore the possibilities in that.
Under are some photos from the Textiel Lab in Tilburg and from the final presentation.