0.7 Polymers  (Page 5/5)

• Solutions A and B have been prepared for you:

• Solution A: A 0.5 M basic solution of hexamethylenediamine (or 2,6-diaminohexane, $H-\text{NH}({\text{CH}}_2{)}_6\text{NH}-H$ ) was prepared as follows: Weigh 5.81 g in a large beaker and dilute to 100 mL with 0.5 M NaOH solution (20 g of NaOH per liter). Warm the solid until it melts. Wear gloves; hexamethylenediamine is absorbed through the skin.
• Solution B: Adipoyl chloride $(\text{Cl}-(C=O)-({\text{CH}}_2{)}_{{}_4}^{-}(C=O)-\text{Cl})$ , 0.25 M: Weigh 4.58 g and dilute to 100 mL with cyclohexane.
• Place 5 mL of solution A in a small beaker. Place 5 mL of solution B in a second beaker
• Slowly add solution A to solution B by gently pouring it down the side of the beaker. Do not stir or mix. Solution A should form a separate layer on top of solution B.
• A film will form at the interface of the two solutions.
• Carefully hook the film with a bent paper clip and pull the film from the beaker.
• Continue pulling until the solutions are exhausted.
• If you want to keep the nylon, rinse it several times with water until it is free of all traces of amine.

C. Glyptal ${}^{\text{TM}}$ Resin (linear condensation copolymer): A small aluminum dish is used to mold the polymer. A coin, favorite small stone, or small flower may be placed on the bottom of the mold if you wish to make a souvenir of this experiment. This will harden several hours after your lab has finished.

CAUTION: Use care when heating any of the solutions – if the solutions come in contact with your skin, severe burns could result.

• In a large test tube, mix 4.0 mL glycerol, 0.5 g sodium acetate, and 10.0 g phthalic anhydride.
• Carefully heat the mixture with a low flame, starting at the top of the contents and moving down toward the bottom as the mixture melts. Remember to point the test tube towards the back of the fume hood for safety reasons. CAUTION Excessive heating during step 2 can cause the hot contents to spurt out. If the hot liquid contacts the skin, severe burns result.
• Continue heating until the melt appears to boil, and then continue heating for 5 minutes. Sufficient heating is required to produce a nonsticky product but excessive heating turns the product into a brittle amber material.
• If desired, place a clean and dry coin into the aluminum dish used for a mold.
• Carefully pour the hot liquid into the mold.
• Allow the material to cool until the end of the laboratory period.
• After the material has cooled, peel the mold from the cooled polymer and describe its appearance.

D. Cross-linked polyvinyl alcohol aka Slime!

CAUTION: The poly(vinyl alcohol) is a fine dust which you should avoid inhaling but you will only use it in solution.

• Measure 50 mL of poly(vinyl alcohol) solution into a paper cup or small beaker and observe its properties. Vinyl alcohol does not exist. Poly(vinyl alcohol) is prepared by first forming poly(vinyl acetate) from vinyl acetate following by hydrolysis to the alcohol.
• Measure 7-8 mL of sodium tetraborate solution into another cup or beaker and observe its properties. Add a few drops of food coloring at this step, if you wish.
• Pour sodium tetraborate into the poly(vinyl alcohol) solution while stirring vigorously with a wooden stick. The borate forms a complex structure called tetraborate, $B_4{O}_5(\text{OH}{)}_{{}_4}^{2-}$ , that links the poly(vinyl alcohol) polymer strands together by hydrogen bonds.
• Wearing safety gloves, examine the properties of the cross-linked polymer. See how far the polymer will flow from your hand. Is the flowing endothermic or exothermic?

E. Silicone Plastic

Silicone plastic, commonly called Silly Putty, can be successfully approximated with Elmer’s Glue instead of silicone oil. You may each make your own silly putty if you wish and if you want to keep it, bring a Ziploc bag – great finger exerciser, stress reliever, bouncy ball etc.

• Mix the food coloring with 30 mL of 50% Elmer’s Glue solution.
• Add the 5 mL of 4% sodium tetraborate (Borax) solution and stir for 2 minutes in the cups provided.
• Wearing your safety gloves, roll around the lump in your hands for two minutes, after which time it will cease to be sticky.
• Examine the properties of this inorganic polymer.
• If you wish to keep your silly putty, bring a Ziploc bag to lab.