How To Trick An Induction Cooker? Complete Guide 2022 – 2023

Induction cooking is the newest and most advanced cooking equipment on the market. Cooking with gas fires or mechanical cooktops has several drawbacks.

However, using induction-ready cookware is a prerequisite of this superior technology. Magnetically conductive and ferromagnetic, Induction-ready cookware is magnetically conductive and ferromagnetic (which means that if you put a magnet on the base of it, it will stick). In this blog we are going to guide you completely that How To Trick An Induction Cooker.

How To Trick An Induction Cooker

Since induction cookware operates on the theory of electromagnetism to generate heat, you’ll need induction-ready cookware. The wire transmits an alternating current to the coil under the cooktop surface.

A magnetic field is generated around it and above the surface as a result of this. This magnetic field can be penetrated by using induction compliant cookware that is magnetically conductive and ferromagnetic.

In the cookware, this causes a high resistive electric current to flow. This resistive electric current creates heat by creating friction, which cooks the food.

Any cookware that will fit on an induction cooktop must be flat, sleek, and magnetic. Placing a magnet in the cookware’s base is a safe way to see if it’s induction compatible with the cooktop. It’s suitable for Induction cooking if it holds to the rim. Induction cooking works well with stainless steel, cast iron, and enamelled cast iron. Cookware that is induction compliant would have a sign showing that it is induction friendly. The positive news is that all induction-compatible cookware will be used on both electric and gas stoves.

Copper, aluminium, and glass will not operate with induction, so the magnetic field will not move through. No electric current will be produced in the cookware. The electromagnetic system as a whole will malfunction, and no heat will be produced. It’s important to understand the cookware acts as a heat source. As a result, using a material that can complete the cooking process is important. It is very costly to replace a whole set of cookware to meet the induction operating standards.

Additionally, your best cookware can have a bottom that does not match the diameter of the cooktop. In order for cookware to fit on an induction cooktop, it must be the same size as the cooking zone on the induction cooktop. There is an alternative to use non-induction cookware or odd-sized induction cookware on an induction cooktop in both of these situations. You can also check All-Clad D3 VS D5 Comparison.

Using Converter Disk With Non-Induction Cookware

A converter disc is a device that allows non-induction cookware to be used on an induction cooktop. It is made of stainless steel or iron and is smooth. It has a heatproof handle that is comfortable to wear. It distributes heat equally through the cookware. To use a converter disc, put it on top of the cooktop and then use whatever non-induction cookware you choose.

Between the induction stovetop and the cookware frame, these iron or steel plates match. It’s incredibly light and heavy, with no risk of tipping or sliding. A word of warning is in order here. Not all discs on the market are of the highest quality. Choose a durable disc with a solid magnet and an easy-to-use handle, ideally one that is heatproof.

The magnetic waves are captured by the disc and transmitted to non-induction cookware, according to theory. As a result, it’s not any better than sticking induction-compatible cookware directly on the induction plate. However, this is not the case in practice.

For one thing, cookware metal is never perfectly brushed. There are hills and valleys with jagged edges. When non-induction cookware is placed on the converter disc, the uneven metal surfaces trap many microscopic air pockets. Air, as we all know, is a poor conductor of electricity. The converter disc attempts to pass the heat to the cookware when magnetic waves enter and induce a current. However, the transition is slowed by the pockets of air. As a result of the heat build-up, the converter disc gets cooler than the bottom of the cookware. Some heat is moved to the kitchen air, and some are conducted downward through the ceramic.

A stainless steel conversion disc was used in the experiment. Water was heated on an induction cooktop without a converter disc and held boiling on an induction cooktop with a converter disc at the same time. Boiling 8 cups of water in induction cookware took 8 minutes 40 seconds while using a converter disc on non-induction cookware took 19 minutes. The induction on which the converter plate was held began throttling from 1500 watts to 1200 watts after 10 minutes and 30 seconds. This may be because the converter disc was overheated for a long time, affecting the ceramic and insulation coating underneath it, as well as the coil underneath it.

Using Netted Steel

During my study, I came across an interesting trick on a YouTube video. They used a sheet of netted steel in the video, which is often used on windows and doors and can be found in the all-purpose hardware tool store. They set the double-folded netted steel sheet on the cooktop. The sheet was set over the non-induction cookware, and the electricity was turned on. It is said to take a long time for large vessels.

I’m wary of this approach because it’s just a trick and hasn’t been checked to see if it’s possible to touch it accidentally. As we all know, electromagnetic induction is a phenomenon in which an electric current is produced in a closed circuit by a current fluctuation in a circuit next to it. So, after taking all necessary precautions, carry out this trick very carefully. Fold the netted mesh and put it all over the cooktop, followed by the cookware, before turning it on. Often, avoid using the internet when cooking. After you’ve turned off the induction, remove the cookware and netted mesh. Check the temperature of the steel mesh and, if possible, use oven gloves.

Using Computer Thermal Paste

There is another technique you can use if you’re looking for a one-time solution.

Apply a coat of machine thermal paste to the bottom of the cookware and mount it on the converter disc slowly. This movement would scatter the paste as a paper-thin sheet between the metal sheets, filling the nooks. It isn’t the best way, but it is a better heat conductor than air. Each time you separate the cookware from the disc, reapply the paste. Since thermal paste degrades at high temperatures, it must be scraped off and reapplied each time until cooking.