BDMAEE

CPOL Innovation
CPOL is a new innovative intermediate used as the structural unit of the soft segment in high-performance polyurethanes, polyetheresters and other polymers to bring excellent flexibility, tensile properties Stretch and tear properties. CPOL is available in a variety of different molecular weight specifications, 1000, 2000 and 2900. While maintaining the excellent mechanical properties, functionality and hydrolytic stability of PolyTHF, the low-temperature mechanical properties and dynamic mechanical properties, especially the stretchability and tear resistance, of products based on CPOL series are better than those based on PolyTHF.

Core Advantages
Compared with many different polyols, CPOL has lower crystallinity, which results in a lower melting point of the soft segment, giving CPOL a very important advantage:

Better processability 高
The melting point of CPOL is significantly lower than that of PolyTHF. CPOL is liquid at room temperature, which makes its use more convenient. Because CPOL no longer needs to be heated and melted like PolyTHF before use, it can be used in areas such as spraying.

More prominent dynamics Mechanical properties
The structure of CPOL gives it significantly higher tensile properties. And the tearing performance of products based on CPOL is also particularly outstanding.

Features Parameters

	CPOL-MM-100	CPOL-MM-200	CPOL-MM-300	CPOL-KK-300
Molecular weight	900 -1100	1950-2050	2500-2900	2800-3200
hydroxyl value mg KOH/g	102.0 -124.7	54.7-57.5	38.7-44.9	35.1-40.1
Water content/ppm	100 max.	100 max.	100 max.	100 max.
Color value/APHA	30 max.	30 max.	30 max.	30 max.
acid value mg KOH/g	0.1 max.	0.1 max.	0.1 max.	0.1 max.
Viscosity@60°C mPa·s	200 -300	1000-1300	2000-3000	2000-2500
Melting point/°C	8 -11	8-11	9-12	17-20

Application
> More transparent coatings, such as those used for fiber optics.
> Products that require higher tear strength, such as professional sports soles, running shoe soles, etc.
> Products that require higher tensile properties, such as elastic materials, fibers, etc.
> Synthetic leather with better dynamic mechanical properties; winter textiles with better low-temperature performance requirements.
>Sports products that require higher low-temperature mechanical properties, such as cast parts such as pulleys/rollers, TPU such as ski boots, and coatings/films such as golf leather. Copolyetherester with improved low temperature and dynamic properties for melt extrusions, foams and films in applications such as springs.
> PU applications requiring low crystallinity, such as shock absorbers and microcellular foams in high-performance moving parts.

“><span style="font-family: Viscosity@60°C
mPa·s

200 -300

1000-1300

2000-3000

2000-2500

Melting point/°C

8 -11

8-11

9-12

17-20

Application
> More transparent coatings, such as those used for fiber optics.
> Products that require higher tear strength, such as professional sports soles, running shoe soles, etc.
> Products that require higher tensile properties, such as elastic materials, fibers, etc.
> Synthetic leather with better dynamic mechanical properties; winter textiles with better low-temperature performance requirements.
>Sports products that require higher low-temperature mechanical properties, such as cast parts such as pulleys/rollers, TPU such as ski boots, and coatings/films such as golf leather. Copolyetherester with improved low temperature and dynamic properties for melt extrusions, foams and films in applications such as springs.
> PU applications requiring low crystallinity, such as shock absorbers and microcellular foams in high-performance moving parts.