HANSA foaming glass cleaner removes soot and other impurities.
IMPLEMENTATION:
Apply a little foam on a damp sponge and so apply it on the dirty, cold glass of the firebox.
Leave to stand and remove dirt with a clean sponge or paper towel.
IMPORTANT NOTICE:
The glass on the firebox door must be cold. Touching hot glass and a cold and damp sponge can cause the glass to crack!
When firewood or coal burns, they emit harmful substances, soot and creosote - some of which settle on the inside of the fireplace or the glass of the stove.
During combustion, a vortex of air is formed and these sticky deposits attract ash particles that float in the combustion chamber of the heating device, which cover the glass with another layer of deposits.
Thus, a "thin layer" of gray and black color is formed on the glass, which not only captures a large part of the light that emanates from the fireplace or stove, but also makes it difficult for heat to penetrate through the glass into the room.
Also, the resistance of the glass can be reduced due to sudden temperature changes and the scratching effect coming from the ash can leave indelible scratches on the glass.
- It does not leave scratches on the glass of the fireplace or stove door.
- It does not damage floors, furniture and other household items.
- It does not damage the metal and enamel surfaces of the heating device.
- Biologically safe and does not act aggressively on human skin.
IMPLEMENTATION:
Apply a little foam on a damp sponge and so apply it on the dirty, cold glass of the firebox.
Leave to stand and remove dirt with a clean sponge or paper towel.
IMPORTANT NOTICE:
The glass on the firebox door must be cold. Touching hot glass and a cold and damp sponge can cause the glass to crack!
When firewood or coal burns, they emit harmful substances, soot and creosote - some of which settle on the inside of the fireplace or the glass of the stove.
During combustion, a vortex of air is formed and these sticky deposits attract ash particles that float in the combustion chamber of the heating device, which cover the glass with another layer of deposits.
Thus, a "thin layer" of gray and black color is formed on the glass, which not only captures a large part of the light that emanates from the fireplace or stove, but also makes it difficult for heat to penetrate through the glass into the room.
Also, the resistance of the glass can be reduced due to sudden temperature changes and the scratching effect coming from the ash can leave indelible scratches on the glass.