HPMC YB 515M

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  • HPMC YB 515M

PRODUCTS DETAILS

Chemical name Hydroxypropyl Methyl Cellulose
Synonym Cellulose ether; Hypromellose; Cellulose, 2-hydroxypropyl methyl ether; Hydroxypropyl methyl cellulose; HPMC; MHPC
CAS number 9004-65-3
EC Number 618-389-6
Brand EipponCell
Product Grade HPMC YB 515M
Solubility Water Soluble Cellulose Ether
Physical form White to off-white cellulose powder
Methoxy 19.0-24.0%
Hydroxypropoxy 4.0-12.0%
Moisture Max.6%
PH 4.0-8.0
Viscosity Brookfield 2% solution 12000-18000 mPa.s
Viscosity NDJ 2% solution 12000-18000 mPa.S
Ash content Max5.0%
Mesh size 99% pass 100 mesh
HS code 3912.39
EipponCell HPMC YB 515M, specifically designed for standard tile adhesive applications, possesses the following properties:

Influence on the open time of tile adhesive

​When latex powder and cellulose ether HPMC are present in a wet mortar, RDP powder exhibits a stronger binding energy with the cement hydration product, while cellulose ether primarily affects the interstitial fluid, affecting the viscosity and set time of the mortar. RDP powder exhibits enhanced attachment to cement hydration products, while cellulose ether primarily affects interstitial fluid, affecting mortar viscosity and set time. The coexistence of latex powder and cellulosic ether HPMC in a wet mortar affects the properties of the mortar, with RDP powder having a larger binding energy and cellulosic ether affecting the viscosity and setting time through its presence in the interstitial fluid.

Influence on the pull-out strength of tile adhesive

Cellulose ether in the mortar not only provides beneficial properties, but also delays the hydration dynamics of the cement by adsorbing onto the hydrated product instead of the original mineral phase.  This retardation effect is attributed to the reduced mobility of the ions in the pore solution due to the increased viscosity caused by cellulose ether. The presence of cellulose ether in cement systems retards hydration kinetics by adsorbing the hydrated product instead of the original mineral phase, while also increasing the viscosity of the pore solution, thereby reducing ion mobility and further slowing down the hydration process. Cellulose ether's retardation effect on cement hydration is primarily achieved by its adsorption onto the hydrated product and the subsequent increase in the viscosity of the pore solution, which hinders ion mobility and delays the overall hydration dynamics.

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