Revolutionary thick-bottom frying pan! The aluminum and iron are bonded using a unique molten forging method with a 1000-ton press, featuring an "8mm thick bottom" for even heat distribution and supreme texture! Also suitable as a warming plate.
*Supreme texture! With an 8mm thick base for even heat distribution, no burning, no uneven cooking, juicy, fluffy, and crispy. *Serve immediately after cooking! The "8mm thick base" retains the heat it absorbs, acting as a warming plate, keeping food warm for 30 minutes at the table. Using a unique molten forging method and high-pressure casting technology, we have created a thick-bottom frying pan that combines aluminum and iron! This frying pan is a new concept that excels in even heat distribution and heat retention at suitable cooking temperatures. It maintains even heat without the need to adjust the heat level, allowing anyone to cook meat and vegetables without burning, resulting in fluffy, professional-quality dishes.
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Improving heat retention in IH cookers Compatible with all heat sources such as gas, IH, direct flame, and ovens. Particularly designed to achieve high performance with IH. A thin iron plate (heating element) is placed in a mold, and liquid aluminum melted in a furnace at over 700°C is poured in and pressed at a pressure of 100 MPa. This method allows the iron to be enveloped by the liquid aluminum, ensuring a strong bonded connection, with the heating element's iron plate covering the entire bottom surface. *100 MPa is equivalent to the water pressure at a depth of 10,000 meters in the ocean. In contrast, typical IH-compatible aluminum frying pans are merely bonded aluminum and iron. A thin iron plate with holes is created to match the shape of the bottom surface that the IH cooker reacts to, and aluminum and iron are bonded together using a heat-resistant adhesive silicone. This rough method results in poor adhesion between the frying pan's bottom and the iron plate, creating gaps. Additionally, the presence of holes reduces the amount of iron plate that acts as the heating element to about half of the bottom surface. 8mm bottom thickness (aluminum-iron bonding) Heat retention of approximately 30 minutes due to thermal storage Compatible with all heat sources (IH, gas, direct flame, oven) Diameter approximately 24 cm / Cooking surface diameter approximately 17 cm Fluorine coating Height approximately 4.2 cm Weight approximately 1 kg
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Applications/Examples of results
Camping frying pan Kitchen cooking frying pan Steak plate
Detailed information
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Using a unique molten metal forging method for high-pressure casting, we have created a thick-bottom frying pan that joins aluminum and iron! This frying pan features a new concept that excels in uniform heat distribution and heat retention at suitable cooking temperatures. It maintains even heat without the need to adjust the heat level just by placing it down. As a result, anyone can cook without sticking, achieving perfectly cooked meat and vegetables like a professional.
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● What Advance Composite is Working On Aluminum + Ceramic / Carbon / Metal Advance Composite addresses challenges such as weight reduction, high rigidity, thermal expansion, and heat dissipation through the customized design and development of "composite materials" centered around aluminum. ● Our Strengths We can freely design materials with properties and functions that cannot be achieved with a single material, leading to significant improvements in characteristics: 1) World-class molten forging technology 2) Design technology that realizes the required properties of materials according to their intended purpose 3) Experience and track record in the manufacturing of metal matrix composites centered around aluminum ● Molten Forging Method Our core technology, molten forging technology, allows us to design and manufacture new materials with unprecedented functions, physical properties, and characteristics that could not be obtained with single materials or other methods. This technology solves challenges such as internal defects, strength, and material limitations that were difficult to address with conventional forging and casting techniques, enabling the enhancement, combination, and bonding of materials that were previously impossible. Through the molten forging method, we can design and manufacture new materials with unprecedented functions, physical properties, and characteristics that could not be achieved with single materials or other methods.