Week04
4. BioChromes¶
Research ¶
Explorations¶
Biochromes are colors chemically formed microscopic, natural pigments. They are a coloring matter that can be extracted from a plant or animal. Biochromes are locally positive, biobased, and produce zero waste. Natural dyes only work on natural fibers. Types of bio-based fibers include vegetal, ceullulose fibers, (cotton and linen), animal, protein fibers, (silk and wool), man made (viscose), and chemically recycled. With treatment and mordanting, they can be used with biochromes. Some sources include: insects, seeds, fruits, leaves, flowers, bark, roots, berries, mushrooms, clay, soils, and bacteria. From biochromes you can form inks, dyes, and pigments. Throughout this week we are working with silk, viscose, cotton, and linen. Tools Needed * Pots * Measuring cups * Spoons * Scale * Bowls * Containers Sources Used * Purple Cabbage, Avocado pits, Turmeric * Onion peels, Spinach, Carrot greens * Beetroot, Indigo, Pomegranate * Black Beans, Cochineal
## Dyes Dyes are colored substanced that chemically bond to the subtrate to which they are applied. Below are the steps to scour, mordant, and dye the fabrics. TERM | DEFINITION ------------- | ------------- Scour | cleaning the fibers, removing waxes & oils present in them. It is mainly done on processed cellulose fibers. (viscose, cotton, and linen). Mordant | substance, alum or iron, which can be used in water alone or combined with a dye bath to enhance the fastening proces of the dye onto organic fibers. WOF | Woight of fabric, checking the wight of tho fabric while it is still dry before any other process. Alum | a mineral found in nature in both pure and impure forms. It is a mineral salt. An alum is a type of chemical compound, usually a hydrated double sulfate salt of aluminium. We use alum to mordant the fabrics to help brighten the colors. Iron | can be made at home with water, vinegar, and rusty nails. Used for mordanting and for modifying colors.
Step 1: Weighing¶
Weigh each type of fabric on its own and note them down. We first cut the fabrics into squares of 15 x 15 cm and then weighed them. The weights we recorded are: Silk: 46.4 g Viscose: 115.9 g Cotton: 265.5 g Linen: 327.2 g
Step 2: Scouring¶
As scouring is only done to the plant fibers, we calculated the viscose, cotton, and linen and added 2% of the sum of their weights of soda carbonate in a pot of water. Total weights = 708.6 g 2% of 708.6 = 14.172 g We placed the fabrics into the water+soda carboante mix and let it simmer for an hour. After scouring them, we rinsed them and clustered
one of each material and rolled them as 'burritos' to aid with the mordanting and dyeing processes to come.
#### Step 3: Mordanting As a group, we decided to mordant the fabrics and not the dye baths so we split the 'burritos' into two piles. We mordanted one pile with Alum and the other with Iron. To calculate the mordants needed we recalculated the total weights (with the silk) and then divided it into two. Amounts Iron: 1% of WOF Alum: 15% of WOF Calculations Total WOF = 825 g Each pile = 412.5 g Iron = 1% of 412.5 = 4.125 g Alum = 15% of 412.5 = 62 g We added the 'burritos' into the preheated mordanted pots and let them simmer for a while. #### Step 4: Dye Baths While the fabrics were being prepped we began with prepping the sources for the dye baths. Hot Bath * Onion Peels (stable) * Avocado Pits (somewhat stable) * Carrot Greens (fugitive) * Spinach * Pomegranate Skin
- Beetroot (fugitive)
- Cochineal (stable)
- Purple Cabbage (fugitive)
- Turmeric (fugitive)
- Indigo (stable) For the hot baths, we chopped the sources and placed them in pots on medium heat and let them simmer for a few hours. Make sure not to let it boil.
Cold Bath * Black Beans (fugitive) For the cold bath, pour the beans in lukewarm water and let them sit overnight. Once the dye baths have simmered for a few hours, we strained them and separated each dye into two dye baths. (One for the iron mordanted fabrics and the other for the alum mordanted fabrics) While waiting for the dye baths to finish simmering, we tested some of them in petri dishes with different modifiers. The modifiers are alum, baking soda, vinegar, and iron.
Once the fabrics and dye baths were ready, we began dyeing the fabrics. We let them sit in the dye bath for 15 minutes and 30 minutes to test if there are any differences in the colors. Once we took them out of the dye bath, we rinsed them and placed them on a drying rack with their labels to dry.
Pantone color palette NATURAL DYES¶
Digital BioPantone by researchers from FAB LAB BCN 2023/24
INGREDIENTS - Natural dyeing¶
PIGMENTS¶
Pigments are substances or powders that can be produced from the leftover dye mixed with a metal & alkali. They can be used as is or can be mixed with acid, water, and heat to become liquid dye once again. For every 400-500 g of dye bath, we added 6 g of baking soda mixed in 100 g of hot water and 18 g of alum mixed in 100 g of hot water. Alum is used to create the chemical reaction the bakind soda is used to netralize the pH. together with the dye bath, they will create causes the liquid to solidify. The solidfied they will sink to the bottom. Once they have filtered and dehydrated to turn into powder.
How to Make Pigments¶
to solidify the color and Once these are mixed a chemical reaction that parts are the pigment and fully sunk, they can be Once you measure out 400-500 g of the dye bath, place it in a a cylindrical container inside a bowl to contain any spill. Then heat water and separately mix the 6 g of baking soda with 100 g of hot water and the 18 g of alum with 100 g of hot water. Make sure to continuously stir the alum or it will begin to crystallize. Firstly, pour the alum into the dye bath and continue to stir. Then slowly, pour in the bakind soda. If poured too quickly, the foam will pop out of the container! We experimented with many different mixtures from the cabbage, black beans, avocado, and onion. * At the end of the process, the pigments were allowed to dry at room temperature. They were dry in two days.
Pigment Recipes¶
Black Beans + Alum + Baking Soda Onion + Alum + Baking Soda Carrot + Alum + Baking Soda Cabbage + Alum + Baking Soda + Vinegar Cabbage + Alum + Baking Soda Cabbage + Alum + Baking Soda + Baking Soda Cabbage + Alum + Baking Soda + Vinegar #### FINAL RESULTS
- Another pigment- TURMERIC
INKS¶
Inks are dense liquids that contain soluble biochromes and disperse pigments in a medium. They can be made to be absorbed by the material or stay on the material. To make inks you need a vehicle, binder, and additive. A vehicle is the liquid in which the pigment is suspended. Binder is the substance that acts as a glue between the dye substance and vehicle. The additive helps stabilise, preserve, and stabilise the ink. We used water as a vehicle, arabic and guar gums as binders, and to preserve the ink we would need to use thyme oil.
How to Make Inks¶
For the inks, we used Arabic Gum and Guar Gum for different consistencies and purposes. The Arabic gum is more liquid and is better for painting or inking while the Guar gum is thicker and denser and can be used for block printing or screen printing. To make the inks we measured out 150 ml of the dye bath and placed in a glass container separately. Then we measured 50 ml of water and mixed in the gum slowly while mixing thoroughly. We started with 3.5 g and increased depending on the desired consistency. We experimented with black beans, beetroot, and cabbage.
## Physical BioPantone We wanted a physical biopantone that is clear, tactile, and can be portable as well. We were inspired by the microscope slides and press fit lasercutting design.
First Iteration ¶
Final Renderings¶
#### Final display
Field trip - Visit of SUPPLIER OF ORGANIC COTTON FABRICS AND GARMENTS¶
They offer 100% naturally colorful organic cotton. Their cultivation is carried out through regenerative agriculture practices. Three tones that are born from the seed; ecru, green and brown.
Santi Mallorqui Gou, CEO of OCC, toured us around the shop and explained their manifesto and their business model. The cultivation is carried out through regenerative agricultural practices where crops of up to five foods coesxist with organic cotton to generate natural nutrition of the soil. They make the cotton available to designers and brands in any form that is needed. They also keep it pure by ensuring no chemicals in the processing of the cotton. Learn more about OCC here