Page Comparison

Whitening Agents:

Ammonium Chloride (http://www.sciencelab.com/msds.php?msdsId=9927431)

Magnesium Oxide (http://www.sciencelab.com/msds.php?msdsId=9927216)

Safety Tips:

Whitening should always be done in a fume hood.  See safety information MSDS sheets referenced above.

Notes Regarding Magnesium Oxide (from Jean DeMouthe):

- The whitening process with MgO can vary with the setup and depending on who is doing it, the thickness and penetration of the coating vary also.

- The effect of the coating on a particular specimen will depend on the mineralogy, grain size, and porosity of the specimen.  And the storage environment needs to be cool & dry, since MgO decomposes in water.

- ALWAYS Wear protection whenever dealing with MgO for any reason; it is strongly alkaline (pH = 10+) and can burn. 

-  If the specimen has to be cleaned, start with the least disruptive process, which would be a soft brush or air blown with a hand-held puffer (do not use canned air, since that leaves a residue of its own).

- If gentle brushing and blowing do not work, try rubbing with a soft cloth.  If the rock is porous, however, this may drive the MgO particles deeper.

- If physical methods don’t work, and the specimen will not be damaged by water, use a gentle, room-temperature stream of clean water.  Be aware that MgO + H2O releases heat suddenly, which can cause spattering.  Do this only under a hood, and/or with face and hand protection.

- When in doubt, do nothing.

Notes Regarding Whitening (from L. Zachos):

- Be sure to not leave the powder on too long because it will absorb moisture from the air.  To clean it off, simply get the specimen wet and wipe it off.

- Dust Carefully dust your specimen beforehand.  As well as whitening Whitening makes the relief of the specimen stand out, therefore it will make the smallest piece of lint or hair stand out several orders of magnitude better.   Anyone  Anyone who looks at the specimen will first point at notice that piece of lint or hair.!

- Given enough With practice, whitening will become becomes a fantastic technique for bringing out the subtle beauty of many details of your fossils for photography.   As mentioned many times before (in the previous sentence, even) practice is a necessity when it comes to this.  My Your first few specimens looked may look like they had just lost a paintball match.  With enough smokingpractice, however, you will become an excellent smoker that’s smooth on the draw.  Then, once you see how your photographs turn out, you won’t be able to stop until your loved ones intervene, saying that so much smoking around the kids cannot be good.

Whitening equipment and setup for Ammonium Chloride (Ann Molineux)::

1) Prepare camera for imaging
2) Select specimens to be smoked - make sure they are clean
3) Decide if they need to be blackened prior to whitening - blackening is discussed later
4) Transport specimen to fume hood and rest firmly near the front

Whitening Specimens for Photography- method Method 1 (Lou Zachos method)-air is automatically continuously pumped over the heated powder

1) Equipment and chemicals

            - Propane torch and igniter (or lighter)

            - Test tube, clamp and stand

            - Aquarium air pump and tubing

            - Ammonium chloride (crystalline powder) 

2) Procedures 

            a)          Heat test tube to begin to vaporize ammonium chloride, wafting the flame up and down the tube to avoid hot spots

b)         Get a firm grasp on specimen.  Sometimes it is necessary to use tape to create a “handle” for the specimen.

c)          Hold  Hold specimen in vapor stream, moving constantly to get even coverage

Specimen and equipment can be cleaned with water (ammonium chloride is water soluble).
BE SURE that neither specimen or matrix will react with water. 

Whitening Specimens for Photography-method Method 2 (The Jim Sprinkle Setup): - air is intermittently pumped by hand over the heated powder

In this setup, the NH₄Cl is contained in a glass tube with one portion distended into a bulbous chamber.  One end has a one-way hand pump attached such that the pump will push air through the glass tube.  The bulbous portion of the tube is loaded with NH₄Cl and turned over the heat source to evenly heat it up until the white powder is clearly exiting the tube.  The pump is then used to gently dust the specimen.  This setup is faster, but requires much more practice to obtain an even coating.  Especially when When the bulb is hot, lots of—often too much—powder will come out, but will become more manageable as the NH₄Clcools.

1) Equipment and chemicals

            - Propane torch and igniter (or lighter)

            - Glass tube with bulb for NH₄Cl

            - Flexible tubing with bulb to pump air over heated powder

            - Ammonium chloride (crystalline powder)

2) Procedures

a) Heat the bulb in the gas flame, rotating to avoid hot spots
b) When a stream of smoke being to flow from the bulb gently puff the powder over the surface of the specimen

 Figure 1: The Sprinkle setup