SDS
1110887 - VALVE REGULATED LEAD ACID BATTERY
NON-SPILLABLE
Revision Date 24-Mar-2016
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Flammability Limit in Air
Upper flammability limit
No data available
Lower flammability limit
No data available
Vapor pressure
10 mmHg
None known
Vapor density
>1
None known
Specific Gravity
1.27- 1.33
None known
Water Solubility
100% (as sulfuric acid)
None known
Solubility in other solvents
No data available
None known
Partition coefficient: n-octanol/water
No data available
None known
Autoignition temperature
No data available
None known
Decomposition temperature
No data available
None known
Kinematic viscosity
No data available
None known
Dynamic viscosity
No data available
None known
Lower Explosive Limit (LEL)
4% (as hydrogen gas)
Upper Explosive limit (UEL)
74% (as hydrogen gas)
Oxidizing properties
No data available
Other Information
Softening Point
No data available
VOC Content (%)
No data available
Particle Size
No data available
Particle Size Distribution
10. STABILITY AND REACTIVITY
Hazardous Polymerization
Will not occur.
Chemical stability
This product is stable under normal conditions at ambient temperature.
Possibility of Hazardous Reactions
None under normal processing.
Conditions to avoid
Prolonged overcharge at high current; sources of ignition.
Incompatible materials
Electrolyte – Contact with combustibles and organic materials may cause fire and explosion. Also reacts violently with strong
reducing agents, metals, sulfur trioxide gas, strong oxidizers, and water. Contact with metals may produce toxic sulfur dioxide
fumes and may release flammable hydrogen gas.
Lead compounds – Avoid contact with strong acids, bases, halides, halogenates, potassium nitrate, permanganate, peroxides,
nascent hydrogen, and reducing agents.
Arsenic compounds – strong oxidizers; bromine azide. NOTE: hydrogen gas can react with inorganic arsenic to form the highly
toxic gas – arsine.
Hazardous Decomposition By-Products
Electrolyte – Sulfur trioxide, carbon monoxide, sulfuric acid mist, sulfur dioxide, hydrogen sulfide.
Lead Compounds - Temperatures above the melting point are likely to produce toxic metal fume, vapor, or dust; contact with
strong acid or base or presence of nascent hydrogen may generate highly toxic arsine gas.
11. TOXICOLOGICAL INFORMATION
Information on likely routes of exposure