MAKING LATEX – MANUFACTURING PROCESSES
The terms “Talalay”
and “Dunlop” refer to the two different methods of manufacturing Latex Rubber for sleep products. The Dunlop process was developed in 1929. It was the first method used to produce latex material for
progressed, the Talalay process was developed by the Talalay family during World War II. The Talalay process for producing latex is significantly more complex and costly, resulting in softer, more
buoyant and luxurious finished products.
MAKING LATEX - LATEX FORMULAS
Both Talalay and
Dunlop processes start with a formula mixture of liquid latex. These formulas can be any of the following:
100% natural latex rubber (harvested from rubber tree plants)
100% synthetic latex rubber (a man-made molecular copy of natural latex rubber)
Blended natural & synthetic latex rubbers (specific blend ratios are proprietary)
Note: there are small amounts of other materials required for processing liquid latex into solid form which are necessary for all latex
production. (ingredients & amounts are proprietary)
Talalay is produced using only 100% Natural or Blended formulations to meet optimum quality standards.
1. Liquid latex formulation is poured into a mold
and sealed closed
2. Vacuum is created to disperse liquid latex throughout mold
3. Liquid latex is flash frozen
4. Frozen latex is flash heated to “gel” into permanent solid form
5. Cooled solid latex is removed from mold
1. Liquid latex formulation is poured onto a long
2. Liquid latex is slowly heated to “gel” into permanent solid form
3. Cooled solid latex is removed from conveyor belt
THE DIFFERENCE IN PROCESSING ARE THE TWO ADDITIONAL STEPS THAT OCCUR WITH TALALAY PROCESS - #2 VACUUM & #3 FREEZE .
#2 Vacuum – This allows any amount of latex to be evenly distributed throughout the mold creating precise and varied firmness
with the finished latex. The more liquid latex that’s poured into the mold the firmer the resulting solid latex. Therefore, if less liquid latex is used, a softer more supple piece of latex
This differs from
Dunlop in that Dunlop process has very little ability to vary the firmness or feel of the finished solid product while maintaining its structural integrity. The liquid formula is poured onto a belt
and you get the same, dense piece of latex every time. The only way to soften the feel of Dunlop latex is to add “fillers” into the liquid latex formula which result in solid latex that is flaky and
breaks down quickly.
#3 Flash Freeze – This provides Talalay with its uniquely consistent characteristic. Liquid latex is a suspension of rubber
particles in water, like a shaken snow globe. Flash freezing prevents the latex particles from settling to the bottom while gelling into a solid product. This means that the resulting piece of solid
Talalay latex has the same consistent feel from top to bottom.
This differs from
Dunlop because Dunlop process does not utilize a freeze step. Therefore, the rubber particles settle to the bottom while the liquid latex is gelling into a solid form, like a snow globe, resulting in
a variation of feel from top to bottom. This is not recognizable if the Dunlop latex is used as a bottom layer of a mattress but can cause problems if Dunlop pieces are used for pillows or as top
layers of a mattress.
CONCLUSION - The Talalay process takes four times longer than Dunlop with two additional process steps that improve the
consistency, quality and feel of the finished latex.
A simple analogy:
Talalay latex is like a chocolate soufflé; although the process is long, your end product is a buoyant, airy, complex delight. Dunlop latex is more like a tray of brownies; tasty, but dense and flat
for this page was obtained from talalay global - at latexfoam.com)