JP2011092746A - Cooking utensil with metallic nonstick coating and production method of the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide nonstick coating material which has high resistance to impact, heat resistance, and abrasion resistance. <P>SOLUTION: A cooking utensil is coated with metallic nonstick coating material which consists of nickel-aluminum-molybdenum (NiAlMo) alloy which consists primarily of nickel aluminum (NiAl) and/or nickel-chromium-chromium carbide (NiCr-Cr<SB>3</SB>C<SB>2</SB>) which consists primarily of chromium carbide (Cr<SB>3</SB>C<SB>2</SB>). Additionally, a method to coat the cooking device with the metallic nonstick coating material is provided. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

1. TECHNICAL FIELD OF THE INVENTION The present invention relates to kitchen utensils, particularly cooking utensils, having a metallic non-stick coating.

2. DESCRIPTION OF THE PRIOR ART Currently, many non-stick cookware available have a non-stick outer coating made of a fluoropolymer resin or similar non-metallic material. Such materials typically begin to deteriorate after about 6 months of use. For this reason, the product life of such a cooking utensil with a non-burning function is always short, which is due to the following reasons.
1. A coating of a non-metallic material such as a fluoropolymer resin has a low bond strength with the base material of the cooking utensil. Non-metallic coatings are often damaged even when the coated cookware is subjected to small external forces. Thus, conventional anti-stick cooking utensils having such a coating are usually equipped with special accessories that protect the cooking utensils from the impact of external forces in order to extend their product life.

2. Typically, coatings of non-metallic materials such as fluoropolymer resins have only heat resistance up to about 260 ° C. However, in general, Chinese in particular require cooking at a high temperature of 260 ° C. or higher. Thus, non-metallic coatings are not satisfactory in most cases. Furthermore, if cooking is performed at a high temperature exceeding 300 ° C., the fluoropolymer resin may be decomposed and release a fluorine-containing gas that is harmful to the human body.
3. Coatings of non-metallic materials such as fluoropolymer resins have poor wear resistance and are often significantly damaged after short-term use. The damage is even more severe when cooking hard shellfish such as shellfish. In many Chinese restaurants, cooking with a wok requires a very high temperature, but the side portions of the wok that do not contain ingredients are “wastely heated” and are therefore always kept at a high temperature. However, current non-stick cooking utensils using fluoropolymers are not only poor in heat resistance. In addition, wok is one of the most frequently used utensils in Chinese restaurants, and therefore there is a great demand for wok having good impact resistance and wear resistance. However, current non-stick cooking utensils using fluoropolymers have poor performance in these two, thus shortening the product life. As a result, many Chinese restaurants still use iron woks that are non-burnable, which is inconvenient for cooking.

  Therefore, there is a strong demand for a cooking utensil that has a metallic non-stick coating and is excellent in impact resistance, heat resistance, and wear resistance.

SUMMARY OF THE INVENTION The present invention provides a cookware having a metallic non-stick coating that is superior in impact resistance, heat resistance, and wear resistance and overcomes deficiencies of the prior art.
According to one aspect of the present invention, there is provided a cooking utensil provided with a metal non-stick coating on the surface of the cooking utensil that contacts the food, and the material of the coating is nickel aluminum (NiAl) as a main component. molybdenum (NiAlMo) alloys, and chromium carbide _(Cr 3 _{C 2)} nickel as a main component - chromium - made selected from the group consisting of chromium carbide _(NiCr-Cr 3 _{C 2)} alloy.

Preferably, the heating surface of the cooking utensil that is in direct contact with the heat source during cooking is also coated with a metallic non-stick coating material.
Preferably, the metallic non-stick coating applied to the food-contacting surface of the cooking utensil includes a lower layer coated with a nickel aluminum molybdenum (NiAlMo) alloy mainly composed of nickel aluminum (NiAl), a chromium carbide ( Cr ₃ C ₂₎ nickel as a main component - chromium - consisting surface portion coated with chromium carbide _(NiCr-Cr 3 _{C 2)} alloy.

According to another aspect of the present invention, there is provided a method of coating a cookware with a metallic non-stick coating, the method comprising:
Roughening and cleaning the coated surface of the cooking utensil; and
Forming a metallic non-stick coating by applying a metallic coating material to the treated surface by a hot spray method.
According to a preferred embodiment of the present invention, the method comprises further subjecting the metallic non-stick coating thus formed to a polishing treatment and / or a grinding treatment.

  The metallic non-stick coating according to the present invention has many advantages over conventional non-stick coatings. Whereas the conventional non-stick coating is a non-metallic coating or a composite coating material of a non-metallic material and a metallic material, the metallic non-stick coating according to the present invention is entirely made of metal or alloy. Formed from. Since non-metallic materials have a relatively narrow allowable temperature range, the heat resistance of conventional non-metallic coatings formed therefrom is also limited. In contrast, the metallic non-stick coating according to the present invention does not have such defects. Furthermore, it is obvious to those skilled in the art that metallic coatings have higher impact and abrasion resistance than non-metallic coatings. Thus, a special accessory (eg, a spatula) is not required for cooking utensils having a metallic coating. In addition, the metal coating formed by the hot spray process bonds particularly well with the cookware substrate. Furthermore, the cooking utensil according to the present invention and the coating on it have an approximate coefficient of thermal expansion because they are both formed from a metallic material, so the non-stick metal coating of the cooking utensil according to the present invention is still Even when washed with cold water while hot, it does not deteriorate easily. Also from the viewpoint of the coating process, the metallic non-stick coating according to the present invention can be equally applied to the cooking utensil regardless of the shape and the base material of the cooking utensil due to the strong binding force by the hot spray process.

The present invention particularly relates to the following aspects 1 to 10.
1. A cooking utensil whose surface in contact with food is coated with a metallic non-stick coating material, wherein the metallic non-stick coating is mainly composed of nickel aluminum molybdenum alloy and chromium carbide as a main component. A cooking utensil made of a material selected from the group consisting of nickel-chromium-chromium carbide alloys.
2. The cooking utensil according to aspect 1, wherein the heating surface of the cooking utensil is also coated with a metallic non-stick coating.
3. The metallic non-stick coating is composed of a lower layer composed of a nickel aluminum molybdenum alloy coating mainly composed of nickel aluminum and an upper layer composed of a nickel-chromium-chromium carbide alloy coating composed mainly of chromium carbide. The cooking utensil according to aspect 1 or 2.
4). The cooking utensil according to aspect 1 or 2, wherein the thickness of the metallic non-stick coating is 0.01 mm to 0.25 mm.
5. A method of coating a cooking utensil with a metallic non-stick coating material, wherein the surface to be coated of the cooking utensil is roughened and cleaned, and the processed surface is coated with a metal by hot spraying. Applying the material to form a metallic non-stick coating.
6). The method according to aspect 5, wherein the surface to be coated is processed by a spraying process.
7). The spraying process is performed by causing high-speed particles selected from the group consisting of aluminum oxide sand, corundum sand, and quartz sand having an appropriate particle size to collide under high pressure against the surface to be coated, thereby making the surface The method of embodiment 6, wherein the roughening is performed.
8). A method according to aspect 5, wherein the hot spray process is selected from the group consisting of a high speed or supersonic plasma spray process, a high speed or supersonic flame spray process, a high speed or supersonic arc spray process, and a detonation spray process. .
9. A method according to aspect 8, wherein the hot spray treatment converts the metallic coating material into metal particles and sprays the treated surface at a speed of at least 150 m / sec.
10. 6. The method according to aspect 5, wherein the metallic non-stick coating thus formed is further subjected to a grinding treatment and / or a polishing treatment.

DETAILED DESCRIPTION OF THE INVENTION In the following, the invention will be described in more detail by means of embodiments showing various aspects and advantages of the invention.
In one aspect of the present invention, a cookware having a metallic non-stick coating is provided. The metallic non-stick coating can be applied to the use surface (surface in contact with food) and / or the heating surface (bottom surface) of the cooking utensil.

The metallic non-stick coating of the cooking utensil according to the present invention includes a nickel aluminum molybdenum (NiAlMo) alloy mainly composed of nickel aluminum (NiAl) and nickel-chromium-based mainly composed of chromium carbide (Cr ₃ C ₂ ). It is formed 100% from a metallic material such as a chromium carbide (NiCr—Cr ₃ C ₂ ) alloy. The metallic non-stick coating may be formed only from a nickel aluminum molybdenum (NiAlMo) alloy mainly composed of nickel aluminum (NiAl). Alternatively, stick coating of metal is nickel as a main component chromium carbide _(Cr 3 _{C 2)} - chromium - chromium carbide _(NiCr-Cr 3 _{C 2)} may be formed only from the alloy.
Furthermore, each of the above two metal alloys has many excellent properties. For example, a coating of nickel aluminum molybdenum (NiAlMo) containing nickel aluminum (NiAl) as a main component has good adhesion and high flexibility, and nickel containing chromium carbide (Cr ₃ C ₂ ) as a main component. -Chromium-chromium carbide (NiCr-Cr ₃ C ₂ ) alloy coating has strong bond strength (above 8,000 psi), high surface hardness (over HRC50), and high wear and heat resistance (about 800 ° C) have.

In a preferred embodiment of the present invention, the metallic non-stick coating mainly comprises a bottom coating made of a nickel aluminum molybdenum (NiAlMo) alloy based on nickel aluminum (NiAl), and chromium carbide (Cr ₃ C ₂ ). And an upper coating made of a nickel-chromium-chromium carbide (NiCr—Cr ₃ C ₂ ) alloy as a component. Such a composite coating process has the advantages of each alloy and therefore has better properties than a coating made of a single alloy. Similarly, such a composite coating can be applied to the heated surface of the cooking utensil.
According to particular embodiments of the present invention, the alloys used can be conventional shapes including, but not limited to, wires, powders, and rods.

The metallic non-stick coating according to the present invention can be formed on the surface of a cooking utensil by the following steps.
1. The surface of the cooking utensil to be coated is roughened and cleaned.
The surface to be coated can be treated by a conventional method such as spraying. Specifically, in the spraying process, high-speed particles such as aluminum oxide sand, corundum sand, and quartz sand having an appropriate particle size are sprayed under pressure to roughen the surface (surface roughness). Sa: Ra1-6), which enables a strong bond between the surface and the coating material.

2. Next, this processed surface is coated with a metallic material by a hot spray method. In this step, a metallic material (wire, powder, or rod) is converted to high speed particles and applied to the work surface to form a metallic non-stick coating.
The hot spray process performed here uses conventional spray equipment suitable for high speed or supersonic plasma spray, high speed or supersonic flame spray (HVAF, HVOF), high speed or supersonic arc spray, and detonation spray. Can be done.

According to a preferred embodiment of the present invention, during the hot spray process, the metal particles are applied to the work surface at a speed of at least 150 m / sec, i.e. 150 m / sec or higher.
According to another preferred embodiment of the present invention, the metallic non-stick coating thus formed is further subjected to a polishing treatment and / or a grinding treatment. The apparatus used for the polishing process and the grinding process can be selected from the group consisting of a stainless steel brush, polishing paper rotating brush, polishing paper, polishing disk, and polishing rotating machine that can be driven by air or motor.

According to another preferred embodiment of the present invention, after the polishing and / or grinding process, the thickness of the metallic non-stick coating is 0.01 mm to 0.25 mm.
The following table shows the main advantages of the metallic non-stick coating according to the present invention in comparison with conventional fluoropolymer coatings.

  Although the present invention has been specifically disclosed by the preferred embodiments and the description thereof, those skilled in the art can make modifications and changes to the present invention without departing from the spirit of the present invention. Various modifications and changes are included in the scope of the present invention.

Claims (10)

  A cooking utensil whose surface in contact with food is coated with a metallic non-stick coating material, wherein the metallic non-stick coating is mainly composed of nickel aluminum molybdenum alloy and chromium carbide as a main component. A cooking utensil made of a material selected from the group consisting of nickel-chromium-chromium carbide alloys.   The cooking utensil according to claim 1, wherein the heating surface of the cooking utensil is also coated with a metallic non-stick coating.   The metallic non-stick coating is composed of a lower layer composed of a nickel aluminum molybdenum alloy coating mainly composed of nickel aluminum and an upper layer composed of a nickel-chromium-chromium carbide alloy coating composed mainly of chromium carbide. The cooking utensil according to claim 1 or 2.   The cooking utensil according to claim 1 or 2, wherein the thickness of the metallic non-stick coating is 0.01 mm to 0.25 mm. A method of coating a cooking utensil with a metallic non-stick coating material, wherein the metallic non-stick coating comprises a nickel aluminum molybdenum alloy containing nickel aluminum as a main component and nickel-chromium containing chromium carbide as a main component. A material selected from the group consisting of chromium carbide alloys;
A method comprising roughening and cleaning a surface to be coated of a cooking utensil, and applying a metallic coating material to the processed surface by a hot spray method to form a metallic non-stick coating. .   6. The method according to claim 5, wherein the surface to be coated is processed by spraying.   The spraying process is performed by causing high-speed particles selected from the group consisting of aluminum oxide sand, corundum sand, and quartz sand having an appropriate particle size to collide under high pressure against the surface to be coated, thereby making the surface The method of claim 6, wherein the roughening is performed. The hot spray process is selected from the group consisting of a high speed or supersonic plasma spray process , a high speed or supersonic flame spray process , a high speed or supersonic arc spray process , and a detonation spray process . Method.   9. The method of claim 8, wherein the hot spray process converts the metallic coating material into metal particles and sprays the treated surface at a speed of at least 150 m / sec.   6. The method according to claim 5, wherein the metallic non-stick coating thus formed is further subjected to a grinding treatment and / or a polishing treatment.