Transcript of the video "Time-Lapse Video of Deterioration: Parchment and Iron Key, Incorrect Relative Humidity"
Length of video: 00:01:46
[No audio or voice over in this video]
On screen: A piece of parchment with handwriting in poor condition, and an iron key, air abraded to remove any existing corrosion, were sprinkled with dust to simulate a collection space where some dust and spores are present.
[Two images of the objects appear side by side, with the left image depicting a light layer of dust on the objects]
The parchment and iron key were placed in 95% relative humidity (RH) to simulate a damp environment for 21 days. Photographs were taken every 10 minutes.
[A graph appears showing conditions for the time-lapse sequence with time on the x-axis and temperature and percent relative humidity on the y-axis.]
Let's watch the time-lapse…
The time-lapse sequence begins.
As soon as the relative humidity starts increasing, the parchment relaxes.
After a few days, the parchment begins to deform.
After 6 days, the surface of the key becomes dull and black corrosion spots appear.
After 12 days, white mould hyphae appear on the parchment.
After 17 days, the mould matures: black sporangia become visible.
On day 23, the relative humidity quickly drops to moderate levels. Parchment has suffered deformation during the period of high relative humidity.
The time-lapse sequence ends.
The parchment and iron key are shown as they looked before being in high relative humidity.
As a comparison, the parchment and iron key are shown after being in high relative humidity.
Avoid damp, over 75% relative humidity, to prevent rapid mould and rapid corrosion.
Avoid relative humidity fluctuations to prevent deformation of parchment.
[Canadian Conservation Institute signature and Canada wordmark]