| Component (Common Name) | CAS Number | Typical % by Weight | | :--- | :--- | :--- | | Diuron | 330-54-1 | 12% | | 3-Iodo-2-propynyl butylcarbamate (IPBC) | 55406-53-6 | 10% | | 2-N-Octyl-4-isothiazolin-3-one (OIT) | 26530-20-1 | 7.5% | | Other Ingredients | -- | 70.5% |
According to globally updated standards (GHS/CLP), ACTICIDE® MKW 2 is flagged with a depending on the specific regional framework due to its high concentration of active biocides. Health Hazards
: Delivers broad-spectrum microbial resistance to ensure high performance in demanding weathering scenarios. The AMME® Encapsulation Edge
The updated SDS categorizes ACTICIDE® MKW2 under several critical hazard classes. Users must review these before handling the product. Health Hazards
Recent updates to the SDS reflect stricter global harmonized classification and labeling (GHS) criteria for isothiazolinones and benzimidazoles. While the core active ingredients remain consistent, the specific concentration thresholds triggering hazard warnings have been lowered in many jurisdictions. 2. Hazard Identification and GHS Classification
Newer data might suggest higher-grade skin protection.
Since the manufacturer's websites can be dynamic, to obtain the most current version of the Acticide® MKW2 SDS, you should directly contact the supplier.
As an EPA-registered product (Registration No. 67071-55), it is approved for use in diverse industrial sites, including coatings, sealants, mastics, and paint films. Its primary active ingredients include: Diuron Octhilinone (OIT) . Safety and Hazard Profiles
Because Acticide MKW2 is highly toxic to aquatic environments, accidental releases must be managed with extreme caution.
Causes irreversible eye damage and severe skin burns if handled improperly.
THOR utilizes its proprietary . This locks the active chemicals inside a protective matrix, preventing moisture leaching and UV degradation. 2. Hazard Identification and Signal Words
