SL-HP10
Technical Datasheet
Hydroxypropyl Methyl Cellulose
Product description
SLEO® SL-HP10 is derived from highly pure refined cotton and is specially made of etherification under alkaline conditions. It is slightly off-white to beige odorless and tasteless powder in appearance.
SLEO® SL-HP10 is used primarily in various construction materials like skim coat / wall putty, tile adhesives, joint fillers, cement mortar, masonry mortar, cement based plasters, external insulation and finish systems (EIFS) where it is used as a rheology modifier, thickener, binder, film former and water retention agent.
Specifications
Model No.
|
SL-HP10
|
Appearance
|
slightly off-white to beige powder
|
Particle Size (mesh)
|
80
|
Methoxy Content (%)
|
28.0-32.0
|
Hydroxypropyl Content (%)
|
7.0-12.0
|
Gelation Temp. (℃)
|
60.0-65.0
|
Water Retention Rate (%)
|
≥90%
|
Ash Content (%)
|
≤5.0
|
Weight Loss on Drying (%)
|
≤5.0
|
pH Value
|
6.0-7.0
|
Viscosity
(NDJ, 2% aqueous solution, mPa•s)
|
100000
|
Viscosity
(Brookfield, 2% aqueous solution, mPa•s)
|
45000
|
Application range
- Skim coat / wall putty
- Tile adhesives
- Joint fillers
- Cement mortar
- Masonry mortar
- Cement based plasters
- External insulation and finish systems (EIFS)
Key properties
-Improves water retention
-Improves adhesive strength
-Improves slip resistance
-Improve construction efficiency
Packaging and storage
A. Standard packed in 25 KG per paper plastic composite bag
B. Big bags or other special packages are possible on request
Weight/20' container: approx. 10 metric tons with pallets, approx. 12 metric tons without pallets
Weight/40' container: approx. 20 metric tons with pallets, approx. 22 metric tons without pallets
Stored in its original packaging in a dry and place with temperature below 30℃.
It is recommended to use SLEO® HPMC within 6 months.
Safety notes
The data presented above is in accordance with the present state of our knowledge, but doesn’t absolve the user from carefully checking it all immediately on receipt. We reserve the right to alter product constantly within the scope of technical progress or new developments. The recommendations made above should be checked by preliminary trials because of conditions during processing over which we have no control of, especially where other companies' raw materials are also being used.