Mordants should never be handled with impunity; these should be used outdoors. Alums contain aluminum. And while aluminum is ubiquitous in our environment, exposure to it should be minimal. It is quite controversial that potassium aluminum sulfate (potassium alum) is often found in baking powder (not baking soda). Exposure to boiled aluminum mordants should not be carried on indoors. Additionally, aluminum sulfate alum produces sulphuric acid when mixed with water; you don’t want to be breathing this indoors.
To the end of mordanting fibre I bought an outdoor cooker yesterday – $85. It is just the burner, and is rated at 66,000 BTU. The flame is regulated by physically adjusting the air flow; this is done by physically turning a piece of aluminum (!) that covers a hole in the cast burner next to the input hose. It worked well on its initial burning; I can’t wait to try my first batch of fibre in it using both potassium alum and alum sulfate…
Seeing that the constituency of pots make an impact on the result of the dyes I decided to pull a couple of large aluminum pots out of storage, see how they do, and then to dedicate them to this in some fashion (we certainly didn’t want to use them in contact with any foodstuffs before this, or hereafter now either).
Salts are ionic compounds that result from the neutralization reaction of an acid and a base. Double salts are compounds obtained by combination of two different salts which were crystallized in the same regular ionic lattice. An example of a double salt is alum. Having an extra charged particle allows it to bind well with both the dye and the fibre to which the dye is being applied. This process of bonding in dyeing is commonly known as mordanting. Note that double salts should not be confused with a complex compound. When dissolved in water, a double salt completely dissociates into simple ions while complex compounds do not, the complex ion remaining unchanged in the later.
True alums have commonly been recognized as double salts of aluminum, such as potassium aluminum sulfate (left) – KAl(SO4)2.
Aluminum sulfate (right) – Al2(SO4)3 – is commonly known as an alum, although it is not a double salt. Aluminum sulfate is the result of the refining process of bauxite which is the raw state of aluminum ore. During this refining process sulfuric acid is used to remove most of the iron and silica present in bauxite.
The difference between these two may be subtle but may drastically show different dye results.Test the mordant with the dye you want to use. Study the Material Safety Data Sheet (MSDS) to determine if the aluminum sulfate you use has iron in it or is refined with potassium. Iron will also affect the dye’s outcome.
Additionally, the type of pot used in the dyeing process can also affect the dyeing outcome. Differences can happen whether you use stainless steel, aluminum, or iron pots during mordanting and dyeing.
Today I found a source of aluminum sulfate for less than a dollar a pound and reserved a 20 kg. bag with which to experiment in the coming weeks. Its MSDS will be telling. But even in the event of its containing iron it may have a use. Another common source for potassium alum is an Indian grocery store…look in the personal hygiene section for antiperspirant/antiseptic/aftershave bars – these are often made from potassium alum. Trying them as a mordant would be more than worth the effort.
…following up on the original dying I did with haskap, here is a comparison of washed fibre (right) against the original, unwashed fibre (left). i purposefully washed this patch with hot water and Tide detergent to see how badly this would damage the colour. It did remove the brilliance of the original red and turned it a brown-russet. Again, this is just a base-line washing with a table salt mordant….fyi…(again, full sun on snow)