CN104150936A - Anti-drop heat-insulating ceramic spoon and preparation process thereof - Google Patents

Abstract

The invention relates to an anti-drop heat-insulating ceramic spoon, and relates to the technical field of tableware. The anti-drop heat-insulating ceramic spoon comprises the following components in parts by weight: 30-40 parts of aluminum silicate fibers, 40-70 parts of silicon dioxide, 10-20 parts of kaolin, 3-8 parts of carbon fibers, 1-5 parts of calcium oxide, 10-15 parts of red porcelain, 5-15 parts of cullet, 2-4 parts of boron fibers, 1-3 parts of pearl fibers, 0.1-0.5 part of cobalt oxide, 0.5-1 part of iron oxide, 2-5 parts of graphene mini-sheets, 1-3 parts of sulfate, 0.1-0.8 part of tin oxide, 0.1-0.8 part of zinc oxide, 0.5-2 parts of stainless steel fibers and 0.1-0.5 part of silver fibers. The anti-drop heat-insulating ceramic spoon disclosed by the invention is smooth in surface, good in strength and low in possibility of breaking due to dropping and can not scald the hand when being used through special preparation on raw materials. Compared with the traditional process, the anti-drop heat-insulating ceramic spoon disclosed by the invention has the advantages of short required time, low energy consumption, good product texture and no toxic substance residue.

Description

A kind of anti-fall thermal insulation ceramics soup ladle and preparation technology

Technical field

The present invention relates to technical field of dinnerware, be specifically related to a kind of anti-fall thermal insulation ceramics soup ladle and preparation technology.

Background technology

Spoon is a kind of meal, kitchen tools with long history, essential in daily life, is mainly used in dipping soup stock or food comparatively in small, broken bits.Conventionally, spoon can be divided into two kinds, soup ladle and strainer by function and structure: a spoon body for soup ladle is a level and smooth cancave cambered surface, is mainly used in dipping soup stock.

Soup ladle of a great variety, as plastics, metal, wooden, ceramic, glass etc., is also varied in structure design; But existing ceramic soup ladle easily scalds one's hand in use, accidentally will be touched brokenly, comparatively inconvenience.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of composition simple, anti-thermal insulation ceramics soup ladle and the preparation technology of falling of smooth texture.

Technical problem to be solved by this invention realizes by the following technical solutions:

The anti-thermal insulation ceramics soup ladle that falls, consists of the component of following weight part: aluminum silicate fiber 30-40 part, silicon-dioxide 40-70 part, kaolin 10-20 part, carbon fiber 3-8 part, calcium oxide 1-5 part, boccaro 10-15 part, glass cullet 5-15 part, boron fibre 2-4 part, pearl fiber 1-3 part, cobalt oxide 0.1-0.5 part, ferric oxide 0.5-1 part, Graphene microplate 2-5 part, vitriol 1-3 part, stannic oxide 0.1-0.8 part, zinc oxide 0.1-0.8 part, Stainless Steel Fibre 0.5-2 part, silver-colored fiber 0.1-0.5 part.

The better parts by weight of each component are: 35 parts of aluminum silicate fibers, 50 parts of silicon-dioxide, 15 parts of kaolin, 5 parts, carbon fiber, 3 parts, calcium oxide, 12 parts of boccaros, 10 parts of glass cullet, 3 parts of boron fibres, 2 parts of pearl fibers, 0.2 part of cobalt oxide, 0.6 part of ferric oxide, 3 parts of Graphene microplates, 2 parts, vitriol, 0.2 part, stannic oxide, 0.5 part, zinc oxide, 1 part of Stainless Steel Fibre, 0.2 part of silver-colored fiber.

An anti-preparation technology who falls thermal insulation ceramics soup ladle, comprises following processing step,

1) silicon-dioxide, kaolin, glass cullet and boccaro be take to dehydrated alcohol as dispersion medium, on supersonic cleaning machine, ultrasonic dispersion is 1 hour, and wherein the mass ratio of material and ethanol is 1:30;

2) compound through ultrasonic dispersion is put into nylon ball grinder, and add zinc oxide, stannic oxide, vitriol, ferric oxide, cobalt oxide and calcium oxide continuous ball milling 4 hours, then the material after ball milling is sent into dryer, at 60 ℃, dry;

3) material after drying is melted, in melting process, add successively aluminum silicate fiber, silver-colored fiber, Stainless Steel Fibre, carbon fiber, boron fibre, pearl fiber and Graphene microplate, stir while adding, make whole materials melt and mix, obtain mother liquor;

4) mother liquor is sent into forming machine, make the soup ladle of the specification that varies in size, with transfer roller, send into annealing furnace after then soup ladle being cooled to 600 ℃ of sclerosis naturally, anneal complete;

5) soup ladle after annealing is sent into tempering case, first bowl is heated to 200-900 ℃, stop heating, send into cold wind immediately from all directions, rapidly soup ladle is cooled to after normal temperature, tempering finishes, and soup ladle is taken out from tempering case, obtains finished product.

By add argent fiber and carbon fiber in formula, make the soup ladle quality of preparation slim and graceful, be difficult for breaking good hand touch, smooth surface;

By add Graphene microplate and pearl fiber in formula, make the soup ladle of preparation there is good heat sinking function, in use can not scald one's hand;

By add the compositions such as boccaro, cobalt oxide, glass cullet in formula, make the soup ladle color of preparation attractive in appearance, smooth in appearance, sight is good, and economic worth is high.

The invention has the beneficial effects as follows: the present invention is by the formulated to raw material, and the soup ladle mass color of preparation is sliding, and intensity is good, is difficult for breaking, and uses non-scald on hand, compares with traditional technology, and the time required for the present invention is short, and energy consumption is low, and goods texture is good, toxicological harmless material is residual.

Embodiment

For technique means, creation characteristic that the present invention is realized, reach object and effect is easy to understand, below in conjunction with specific embodiment, further set forth the present invention.

Embodiment 1

The anti-thermal insulation ceramics soup ladle that falls, consists of the component of following weight part: 35 parts of aluminum silicate fibers, 50 parts of silicon-dioxide, 15 parts of kaolin, 5 parts, carbon fiber, 3 parts, calcium oxide, 12 parts of boccaros, 10 parts of glass cullet, 3 parts of boron fibres, 2 parts of pearl fibers, 0.2 part of cobalt oxide, 0.6 part of ferric oxide, 3 parts of Graphene microplates, 2 parts, vitriol, 0.2 part, stannic oxide, 0.5 part, zinc oxide, 1 part of Stainless Steel Fibre, 0.2 part of silver-colored fiber.

An anti-preparation technology who falls thermal insulation ceramics soup ladle, comprises following processing step,

1) silicon-dioxide, kaolin, glass cullet and boccaro be take to dehydrated alcohol as dispersion medium, on supersonic cleaning machine, ultrasonic dispersion is 1 hour, and wherein the mass ratio of material and ethanol is 1:30;

2) compound through ultrasonic dispersion is put into nylon ball grinder, and add zinc oxide, stannic oxide, vitriol, ferric oxide, cobalt oxide and calcium oxide continuous ball milling 4 hours, then the material after ball milling is sent into dryer, at 60 ℃, dry;

3) material after drying is melted, in melting process, add successively aluminum silicate fiber, silver-colored fiber, Stainless Steel Fibre, carbon fiber, boron fibre, pearl fiber and Graphene microplate, stir while adding, make whole materials melt and mix, obtain mother liquor;

4) mother liquor is sent into forming machine, make the soup ladle of the specification that varies in size, with transfer roller, send into annealing furnace after then soup ladle being cooled to 600 ℃ of sclerosis naturally, anneal complete;

5) soup ladle after annealing is sent into tempering case, first bowl is heated to 300 ℃, stop heating, send into cold wind immediately from all directions, rapidly soup ladle is cooled to after normal temperature, tempering finishes, and soup ladle is taken out from tempering case, obtains finished product.

Embodiment 2

The anti-thermal insulation ceramics soup ladle that falls, consists of the component of following weight part: 40 parts of aluminum silicate fibers, 70 parts of silicon-dioxide, 20 parts of kaolin, 8 parts, carbon fiber, 5 parts, calcium oxide, 15 parts of boccaros, 15 parts of glass cullet, 4 parts of boron fibres, 3 parts of pearl fibers, 0.5 part of cobalt oxide, 1 part of ferric oxide, 5 parts of Graphene microplates, 3 parts, vitriol, 0.8 part, stannic oxide, 0.8 part, zinc oxide, 2 parts of Stainless Steel Fibres, 0.5 part of silver-colored fiber.

An anti-preparation technology who falls thermal insulation ceramics soup ladle, comprises following processing step,

1) silicon-dioxide, kaolin, glass cullet and boccaro be take to dehydrated alcohol as dispersion medium, on supersonic cleaning machine, ultrasonic dispersion is 1 hour, and wherein the mass ratio of material and ethanol is 1:30;

2) compound through ultrasonic dispersion is put into nylon ball grinder, and add zinc oxide, stannic oxide, vitriol, ferric oxide, cobalt oxide and calcium oxide continuous ball milling 4 hours, then the material after ball milling is sent into dryer, at 60 ℃, dry;

3) material after drying is melted, in melting process, add successively aluminum silicate fiber, silver-colored fiber, Stainless Steel Fibre, carbon fiber, boron fibre, pearl fiber and Graphene microplate, stir while adding, make whole materials melt and mix, obtain mother liquor;

4) mother liquor is sent into forming machine, make the soup ladle of the specification that varies in size, with transfer roller, send into annealing furnace after then soup ladle being cooled to 600 ℃ of sclerosis naturally, anneal complete;

5) soup ladle after annealing is sent into tempering case, first bowl is heated to 500 ℃, stop heating, send into cold wind immediately from all directions, rapidly soup ladle is cooled to after normal temperature, tempering finishes, and soup ladle is taken out from tempering case, obtains finished product.

Embodiment 3

The anti-thermal insulation ceramics soup ladle that falls, consists of the component of following weight part: 30 parts of aluminum silicate fibers, 40 parts of silicon-dioxide, 10 parts of kaolin, 3 parts, carbon fiber, 1 part, calcium oxide, 10 parts of boccaros, 5 parts of glass cullet, 2 parts of boron fibres, 1 part of pearl fiber, 0.1 part of cobalt oxide, 0.5 part of ferric oxide, 2 parts of Graphene microplates, 1 part, vitriol, 0.1 part, stannic oxide, 0.1 part, zinc oxide, 0.5 part of Stainless Steel Fibre, 0.1 part of silver-colored fiber.

An anti-preparation technology who falls thermal insulation ceramics soup ladle, comprises following processing step,

1) silicon-dioxide, kaolin, glass cullet and boccaro be take to dehydrated alcohol as dispersion medium, on supersonic cleaning machine, ultrasonic dispersion is 1 hour, and wherein the mass ratio of material and ethanol is 1:30;

2) compound through ultrasonic dispersion is put into nylon ball grinder, and add zinc oxide, stannic oxide, vitriol, ferric oxide, cobalt oxide and calcium oxide continuous ball milling 4 hours, then the material after ball milling is sent into dryer, at 60 ℃, dry;

3) material after drying is melted, in melting process, add successively aluminum silicate fiber, silver-colored fiber, Stainless Steel Fibre, carbon fiber, boron fibre, pearl fiber and Graphene microplate, stir while adding, make whole materials melt and mix, obtain mother liquor;

4) mother liquor is sent into forming machine, make the soup ladle of the specification that varies in size, with transfer roller, send into annealing furnace after then soup ladle being cooled to 600 ℃ of sclerosis naturally, anneal complete;

5) soup ladle after annealing is sent into tempering case, first bowl is heated to 600 ℃, stop heating, send into cold wind immediately from all directions, rapidly soup ladle is cooled to after normal temperature, tempering finishes, and soup ladle is taken out from tempering case, obtains finished product.

More than show and described ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; that in above-described embodiment and specification sheets, describes just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.The claimed scope of the present invention is defined by appending claims and equivalent thereof.

Claims (2)

1. the anti-thermal insulation ceramics soup ladle that falls, it is characterized in that, by the component of following weight part, formed: aluminum silicate fiber 30-40 part, silicon-dioxide 40-70 part, kaolin 10-20 part, carbon fiber 3-8 part, calcium oxide 1-5 part, boccaro 10-15 part, glass cullet 5-15 part, boron fibre 2-4 part, pearl fiber 1-3 part, cobalt oxide 0.1-0.5 part, ferric oxide 0.5-1 part, Graphene microplate 2-5 part, vitriol 1-3 part, stannic oxide 0.1-0.8 part, zinc oxide 0.1-0.8 part, Stainless Steel Fibre 0.5-2 part, silver-colored fiber 0.1-0.5 part.

2. an anti-complete processing of falling thermal insulation ceramics soup ladle described in claim 1, is characterized in that, technique is as follows:

1) silicon-dioxide, kaolin, glass cullet and boccaro be take to dehydrated alcohol as dispersion medium, on supersonic cleaning machine, ultrasonic dispersion is 1 hour, and wherein the mass ratio of material and ethanol is 1:30;

2) compound through ultrasonic dispersion is put into nylon ball grinder, and add zinc oxide, stannic oxide, vitriol, ferric oxide, cobalt oxide and calcium oxide continuous ball milling 4 hours, then the material after ball milling is sent into dryer, at 60 ℃, dry;

3) material after drying is melted, in melting process, add successively aluminum silicate fiber, silver-colored fiber, Stainless Steel Fibre, carbon fiber, boron fibre, pearl fiber and Graphene microplate, stir while adding, make whole materials melt and mix, obtain mother liquor;

4) mother liquor is sent into forming machine, make the soup ladle of the specification that varies in size, with transfer roller, send into annealing furnace after then soup ladle being cooled to 600 ℃ of sclerosis naturally, anneal complete;

5) soup ladle after annealing is sent into tempering case, first bowl is heated to 200-900 ℃, stop heating, send into cold wind immediately from all directions, rapidly soup ladle is cooled to after normal temperature, tempering finishes, and soup ladle is taken out from tempering case, obtains finished product.