Acrylic Acid Paa Binder for Lithium Ion Battery

CNB-1-B06

Acrylic Acid (PAA-Li) Binder for Lithium-Ion Batteries, LA136D

Regular price $117.00
/
Weight

Higher molecular weight, low swelling degree, stronger adhesion.

Stronger electrolyte resistance and significantly improved battery performance.

 

Model

LA136D

Viscosity(mPa·S,40℃)

10000-18000

Solid state(%)

6.0±0.2

pH

6.5~9

Appearance

Colorless transparent solution


Applications:

LA136D water-based adhesive is an aqueous solution of acrylic acid derivative multi-element copolymer with good thermal stability and electrochemical stability. It is suitable for binding silicon carbon anode materials.

It has excellent electrolyte resistance, and the swelling degree is much lower than the traditional water-based negative electrode binder.

The amount of LA136D binder in the negative electrode slurry is 1.5%~2.5%, and the recommended amount is 0.5%CMC+1.5%LA136D.

 

Notice:

 

LA136D needs to be diluted slowly with DI water before use.

Adding PC or EC to the anode electrode slurry prepared by LA136D binder can increase the flexibility of the electrode and avoid delamination  and cracking of the edge of the electrode. The amount is about 5% of the total solvent.

The maximum single-sided coating temperature of LA136D adhesive slurry is recommended to be controlled below 80℃. When the oven temperature is too high, electrode delamination and cracking may occur.

During the shelf life, the viscosity of LA136D adhesive increases with the increase of storage time, which is a normal phenomenon.

Download Material Safety Data Sheet:


Download Technical Data Sheet:


Why Choose Beyond Battery?

Packed with Care

Your selected purchases are inspected and packed with care and consideration, both for the receiver and the handler.

30-Days Satisfaction Promise.

We work tirelessly to improve our products and services. If you are not satisfied with our product, contact us within 30-days of your purchase and let us make it up to you!

A Global
Provider

Reach out to us from wherever you are.