Assignment 6 - Treatments

Question 1

Why are some gems treated?

Answer 1

Gems are treated for a number of reasons. Treatments can:
- Deepen, change, or remove color
- Improve clarity
- Create or accentuate phenomena and desirable inclusions
- Improve luster

Question 2

How does treatment affect value?

Answer 2

• Treatments can make gemstones more appealing and dramatically increase their value.
• But the absence of treatment makes many stones more valuable than treated stones of similar apparent quality.

Question 3

Why is treatment disclosure important?

Answer 3

Because it affects the value and in some cases the durability.

Question 4

Any human-controlled process, beyond cutting and polishing, that improves the appearance,
durability, or value of a gem.

Answer 4

Treatment

Question 5

What are the most common treatments?

Answer 5

• Heat Treatment
• Lattice Diffusion
• Glass Filling
• Irradiation
• Bleaching
• Dyeing

Question 6

What stones are commonly heat-treated?

Answer 6

Commonly heat-treated gems include corundum, tanzanite, zircon, topaz, aquamarine, and amber.

Question 7

What stones are commonly irradiated?

Answer 7

Commonly irradiated gems include topaz, tourmaline, and cultured pearl.

Question 8

What gems are commonly bleached?

Answer 8

Bleaching is a fairly common pearl treatment.

Jadeite is often treated with a combination of bleaching and impregnation.

Question 9

What stones are commonly dyed?

Answer 9

Commonly dyed gems include cultured
pearl, lapis lazuli, chalcedony, and coral.

Question 10

How durable are some gem treatments?

Answer 10

Some treatments like heat-treatments are permanent, other are not.

Irradiated color is not always stable, and
exposure to heat or light can destroy it.

Question 11

Exposing a gem to rising temperatures for the purpose of changing its appearance.

Answer 11

Heat treatment

Question 12

An oxygen-rich environment that surrounds a gem during heat treatment, causing certain color-causing trace elements to lose electrons.

Answer 12

Oxidizing environment

Question 13

A compound that can dissolve another compound at a lower temperature than its own melting point.

Answer 13

Flux

Question 14

Heat treatment in the
presence of a flux that results in the
sealing of a fracture or cavity.

Answer 14

Flux healing

Question 15

A treatment in which a gem is exposed to high
temperatures and chemicals to allow penetration of color-causing elements.

Answer 15

Lattice diffusion

Question 16

How can you treat dark blue sapphire?

Answer 16

A combination of beryllium diffusion
and heat treatment can improve color in
some dark blue sapphires and make
them more marketable.

Question 17

How deep does Lattice Diffusion penetrate a stone?

Answer 17

Lattice diffusion with heavier elements
like titanium and chromium produces a
shallow layer of color that might be
removed by minor repolishing.

The color resulting from lattice diffusion
with beryllium can penetrate the entire
stone.

Question 18

A clear, viscous substance that’s
used to fill fractures in gemstones.

Answer 18

Resin

Question 19

A liquid filling material
that’s very durable when it dries.

Answer 19

Polymer

Question 20

A chemical that treaters
mix with some resins to cause them
to solidify.

Answer 20

Hardener

Question 21

What is the most common treatment of emeralds?

Answer 21

Today, almost all emeralds on the market
are subjected to clarity enhancement.

Fracture filling is the most common
form of clarity enhancement.

Question 22

Treatment that improves the apparent clarity of a gem with a colorless or near-colorless filler.

Answer 22

Clarity enhancement

Question 23

Use of a colorless to near-colorless filler to conceal fractures and improve the apparent clarity of a gem.

Answer 23

Fracture (fissure) filling, as clarity enhancement

Question 24

A treatment that adds color or affects color by deepening it, making it more even, or changing it.

Answer 24

Dyeing

Question 25

A rapid heating and cooling process that produces fractures in a stone so it will accept
dye.

Answer 25

Quench crackling

Question 26

Altering a gem’s appearance by applying backings, coatings, or coloring agents like paint.

Answer 26

Surface modification

Question 27

Soaking an opal in a hot sugar solution and then in sulfuric acid to darken it and bring out its play-of-color.

Answer 27

Sugar treatment

Question 28

Heating a wrapped opal until smoke or ash
penetrates its surface to darken it and bring out its play-of-color.

Answer 28

Smoke treatment

Question 29

Written information on dyeing gems dates back to about

A. 200 BC.

B. 100 AD.

C. 300 AD.

D.700 AD.

Answer 29

A. 200 BC.

Question 30

After irradiation, which gem’s color is stable under normal wearing conditions?

A. Golden beryl

B. Orange sapphire

C. Yellow sapphire

D. Green spodumene

Answer 30

A. Golden beryl

Question 31

For effective clarity enhancement, the material used to fill a gem’s fractures must have nearly the same

A. color as the gem.

B. density as the gem.

C. hardness as the gem.

D. refractive index as the gem.

Answer 31

D. refractive index as the gem.

Question 32

What agent can create a shallow layer of asterism when it’s introduced below the surface of a corundum cabochon by lattice diffusion?

A. Iron oxide

B. Chromium

C. Titanium oxide

D. Aluminum oxide

Answer 32

C. Titanium oxide

Question 33

Quartz or topaz with a thin layer of gold deposited on the surface is known as

A. lemon.

B. smoky.

C. Madeira.

D. aqua aura.

Answer 33

D. aqua aura.

Question 34

How deep is the color layer that lattice diffusion with titanium or chromium creates in corundum?

A. 0.01 to 0.50 mm

B. 0.50 to 1.00 mm

C. 1.00 to 1.50 mm

D. 1.50 to 2.00 mm

Answer 34

A. 0.01 to 0.50 mm

Question 35

Creating asterism with heat treatment is most common in

A. natural ruby.

B. natural sapphire.

C. synthetic corundum.

D. natural fancy sapphire.

Answer 35

C. synthetic corundum.

Question 36

Heat can lighten amethyst’s purple by

A. dissolving rutile.

B. affecting titanium impurities.

C. affecting chromium impurities.

D. causing changes in color centers.

Answer 36

D. causing changes in color centers.