Advanage Wonder Cleaner Ingredients

Advanage the wonder cleaner is a multipurpose cleaner that is ultra-concentrated. It is also safer for the environment compared to other cleaners. 

Many people wonder what ingredients are present that make it such a powerful cleaner. The main ingredients are 2-Butoxyethanol, glycol, sodium metasilicate, and D-limonene. All these ingredients are suitable degreasers, and you can find them in most cleaning agents

We will discuss each of the ingredients in detail so that you can understand why most good cleaning agents have them. 

Advantage Wonder Cleaner Ingredients 


As mentioned earlier, advanage the wonder cleaner has three main ingredients. And we all know that advantage is a multipurpose cleaner. You can use it to clean your carpets, laundry, automobile, kitchen, bathroom, etc. You can use this cleaner for simply everything. Now let’s know why these three specific ingredients are present in advanage and many other power cleaners. 

Advanage Wonder Cleaner Ingredients
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It is also known as ethylene glycol monobutyl ether. It is similar to glycol. 2-Butoxyethanol is a colorless liquid. It also has an ether-like and sweet odor. By the ether-like odor, you can identify 2-Butoxyethanol. 

Moreover, it isn’t an expensive solvent. And it is pretty safe to use as it is nonvolatile and the level of toxicity is low. Non Volatile means it doesn’t evaporate into air readily. So you can store it anywhere.  

One of the positive sides of using 2-Butoxyethanol is that it isn’t a major environmental contaminant which means it doesn’t cause harm to the environment. It is produced by reacting butyl alcohol with ethylene oxide in most cases. 

There are many other commercial uses of 2-Butoxyethanol. Many people are aware that it has both polar and nonpolar ends. As a result, you can use it for removing oil stains or grease

Sodium Metasilicate 

You might not know that Sodium metasilicate is actually an inorganic salt. It has a powdered white appearance, or you can sometimes see it as flaked solid. There are many reasons for using inorganic salt in cleaning agents. 

First, you should know how sodium metasilicate is made. It is produced by reacting silicon dioxide with sodium carbonate. So it means that sodium metasilicate has both silica and an alkali. And these two things are pretty crucial for making effective cleaning agents. 

Sodium metasilicate provides the perfect amount of both alkalinity and silica. And the perfect ratio of these two things makes a cleaning agent effective. Sodium metasilicate has multifunctional cleaning properties, and these properties activate the removal of fatty and other particles easily.

It even has corrosion inhibiting properties. As a result, the surfaces of both metals and nonmetals remain safe. There are many other valuable properties of sodium metasilicate. For example, it has a high dissolution rate, which can easily get dissolved in water. 

Then it has high mechanical strength along with negligible insoluble residue. Insoluble residue means material that can be dissolved in acetic acid and hydrochloric acid.  

As sodium metasilicate is made up of sodium carbonate, it is quite alkaline. So whole storing or using, you have to handle it with care to avoid injuries. And while storing, you have to make sure you label it correctly, so people don’t get confused.


It is an ingredient that comes from the extract of citrus fruits, and it is another active ingredient present in many cleaning agents. To be more precise, D-limonene comes from the skin of many fruits and plants. 

There are two main reasons for using D-limonene in cleaning agents. As it comes from the fruit, it has a pleasant smell.  And the second one is that it acts as an excellent solvent. It doesn’t have any color, and its toxicity level is very low. 

When d’limonene reacts with ozone, it releases small amounts of other compounds, such as formaldehyde. D-limonene doesn’t have any color as well as its toxicity level is very low. You might have heard that D-limonene reacts with ozone. When d’limonene reacts with ozone, it releases small amounts of other compounds, such as formaldehyde.  

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