1. GROOVY !
CHEMISTRY IS

2. WE "DYE"
FOR CHEMISTRY!

3. "TIE DYEING"
IN PROGRESS

4. Chemistry is Everywhere!
Everything we do, from digesting our food to making art, involves chemistry. Everything is made of chemicals! Today, we are going to learn about how chemistry is involved in tie dying. First we need to understand a few things about dyes and how they react.

5. TIE-DYE is a process of tying and dying a piece of white fabric or cloth which is made from knirt or woven fabric (cotton) typically using bright colors.

6. Chemical or Physical Change
Some dyes, such as the kind that you can buy in the grocery store, really just stain clothes, so the dye washes out a little every time you wash the cloth. Is this a chemical or physical change?____________ Explain your answer:
PHYSICAL
No new substances are formed.
Chemicals not bonded together

7. Most tie-dyers use fiber reactive dyes.
Works at warm room temperature.
The molecules permanently bind with CELLULOSE based fibers (cotton, rayon, hemp, linen and silk)
when the pH is raised.
Contains a reactive group (Trichlorotriazine) that forms a chemical bond with the HYDROXYL group on the cellulosic fibre

8. Bonding of Dye Molecules
A really good dye actually attaches to the molecules of the fabric (this is known as _______________________________.)
If the dye will NOT wash out. Is this a chemical or a physical change?_________
Explain your answer:
BONDING
CHEMICAL
A new substance is formed different from
the original substances—different chemical
properties

9. Structure of Dye Molecules:
The dye molecules are made out of atoms of different elements such as C (_______________),
H (_______________), O (_________________),
S (____________________),
N (__________________),
Cl (____________________), and
Na (___________________) for example.
carbon
hydrogen
oxygen
sulfur
nitrogen
chlorine
sodium

10. 2 Different Dye Molecules
models
These pictures actually represent __________ of the molecules because molecules are too small to see.
BLUE
RED

11. Bonds and Structure
These atoms are held together by chemical bonds and are arranged in different structures.
Different dye colors are made out of different dye molecules. Each dye molecule is shaped differently and thus each different shape absorbs light differently.
That’s what makes the different colors!

12. Structure of Fabric
Cotton, which grows on a cotton plant, is made of large strands of cellulose molecules, all twisted together. Cellulose is the same thing that wood is made of.

13. Soda ash (Na2CO3) is used to raise the pH.
You can add it directly to the dye or a solution of water in which garments are soaked before dying.
This will allow the dye to attach to the cellulose permanently by forming a chemical bond.
BASIC substance

14. Soak Shirt in Soda Ash— The Fixer
Label your item with a permanent marker
Place it into the bucket of a solution of soda ash that has been prepared.
Completely submerge it and be sure that it is soaked through
Wring out most of the fixer solution from the shirt into the bucket. The fixer solution can be reused to soak additional tee shirts.
Bring item to the dyeing station.

15. Getting Ready to Dye You must wear goggles, apron, and plastic gloves.
The tee shirt should be wet but most of the water squeezed out. If too wet, the dye will be diluted.

16. Tying Your Item Lay the shirt flat on the clean plastic tabletop.
Try to get as many wrinkles out of the shirt.
Pick a pattern. Pleat, spiral, or fold the shirt in the desired pattern.

17. Tying Your Item
Place 2 to 3 long rubber bands around the fabric across the middle to hold the fabric together and the folds in place.
The rubber bands should not bind or squeeze the fabric, simply hold everything in place so that it doesn’t unravel.

18. Dyeing Techniques Make sure the area is clean.
Place the shirt on the table and begin applying the dyes to the areas desired using the dropper that is in the dye.
DO NOT mix droppers!!!!!!
Be careful when choosing colors. Orange + blue will turn brown.
Suggestions: Don’t put purple next to yellow or orange. This will also turn brown.

19. The Next Day—Rinsing
Wearing gloves and goggles, take the bag to the sink.
Remove the shirt.
Rinse the shirt with cold water. Squeeze and rinse until no more dye runs from the shirt (This may take 5-10 minutes).
Increase the temperature of the water to warm water. Continue to rinse for 5 more minutes.
Squeeze shirt dry. Place shirt in new plastic bag.
Suggestion—use 2 plastic bags to avoid leaking.
Take home.

20. How to make a basic spiral pattern?

21. HOW TO MAKE A VERTICAL ACCORDION PATTERN?

22. Questions
What change took place when the dye attaches to the molecules of the fabric? Explain your answer.
List down the different elements made out of dye molecules.
What holds the atoms together?

23. Questions
4. What molecules your fabric is made of? 5. Why do you need to pre-treat the fabric with sodium carbonate or soda ash before dyeing?