CN104290331A - Method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder - Google Patents
Method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder Download PDFInfo
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- CN104290331A CN104290331A CN201310312491.9A CN201310312491A CN104290331A CN 104290331 A CN104290331 A CN 104290331A CN 201310312491 A CN201310312491 A CN 201310312491A CN 104290331 A CN104290331 A CN 104290331A
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Abstract
Containers have a service life of only 20 years, have to be welded and take much cost. The method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder comprises the following steps: sintering the plastic powder and a glass cloth to make plastic and glass foam boards, and assembling the plastic and glass foam boards by using bolts to obtain various plastic and glass containers. The method does not need welding, so the cost is saved, the container production speed is improved, and the safety performance is enhanced; and the price of 1M<2> of the high temperature resistant plastic and glass plate for the plastic and glass boards is 0.4yuan, and 1t of the flame retardant plastic powder is million yuan, so the plastic and glass foam board has a price several times lower than steel boards. The plastic and glass foam boards have a life of a hundred years, the plastic is not corroded, and the surface layer glass cloth can block ultraviolet ray to protect a second layer plastic; the glass cloth is elastic and has improved impact resistance; and the foam has a bending resistance several times better than the plastic and glass boards, and has a unit weight of below 0.3g/cm<3>. The plastic and glass containers have hundred years life and low price is low, and all performances of the containers exceed those of current various containers, so the plastic and glass containers will soon occupy the markets of steel board, aluminum board and glass steel board containers.
Description
Current steel for container plate, aluminium sheet, glass epoxy are produced, and only 20 years service life was just fibreglass reinforced plastic container, and also will carry out frame welding, price is also expensive.
This technology propose molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century mould glass container, be called for short mould glass container, without steel plate, aluminium sheet, glass epoxy, can solve the problem.Mould as plastics, glass is glass cloth.
Mould glass container, its beneficial effect is, without the need to welding, reduces costs, impact resistance, and without metal, century-old use, weight reduction, waterproof, antiacid alkali, heat-insulating property is strong.
Molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century mould glass container, the technical scheme that its technical solution problem adopts is, glass cloth is made with facility, or glass cloth is starched by molding powder, molding powder slurry can have adhesive, and plastics can be flame retardant plastics, molding powder is made to starch through glass cloth hole, strike off Unneeded plastic powder slurry, making molding powder starch parcel glass cloth becomes molding powder slurry glass cloth, or becomes molding powder slurry glass cloth; Polylith molding powder slurry glass cloth overlap sticks into molding powder slurry glass-cloth board; Many molding powder slurry glass cloth overlap sticks into molding powder slurry glass cloth lath (1), and molding powder slurry glass cloth lath is equidistant opens narrow slit (2), and slit width equals lath thickness, and narrow slit length equals width of sheet half; By the narrow slit of many laths to skewer, stick into as lath framework (3); Lath framework is placed on molding powder slurry glass-cloth board, then on lath framework, puts molding powder slurry glass-cloth board, stick into as molding powder slurry glass cloth cystosepiment (4) with adhesive; Glass-cloth board starched by lath framework and molding powder, or molding powder slurry glass cloth lath is overlapping, and sticks into the molding powder slurry multi-layered foamed plate of glass cloth (5) with adhesive, or sticks into the multi-layered foamed lath of molding powder slurry glass cloth; The multi-layered foamed lath of molding powder slurry glass cloth, the equidistant molding powder that is placed on is starched on glass cloth cystosepiment, sticks into as column type plastic powder slurry glass cloth cystosepiment (6) with adhesive; By molding powder slurry glass cloth cystosepiment, column type plastic powder slurry glass cloth cystosepiment, the multi-layered foamed plate of molding powder slurry glass cloth, the multi-layered foamed lath of molding powder slurry glass cloth by design perforate or not perforate, putting stove heating after drying into makes molding powder fusible, obtains and moulds glass cystosepiment, pillar moulds glass cystosepiment (7), mould the multi-layered foamed plate of glass, mould the multi-layered foamed lath of glass after cooling; With moulding glass cystosepiment, pillar moulds glass cystosepiment, mould the multi-layered foamed plate of glass, mould the multi-layered foamed lath of glass, the assembling of steel plate, aluminium sheet, glass epoxy is replaced variously to mould glass container (8): such as, a. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get that pillar moulds that glass cystosepiment does at the bottom of sidewall, end face, case, case top, chamber door, be assembled on framework with bolt, become interior pillar or outer pillar moulds glass container; B. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get and mould that glass cystosepiment does at the bottom of sidewall, end face, case, case top, chamber door, be assembled on framework with bolt, become thin shell type and mould glass container; C. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get and mould that the multi-layered foamed plate of glass does at the bottom of sidewall, end face, case, case top, chamber door, be assembled on framework with bolt, become fiberglass formula and mould glass container; Mould glass container and carry out the related process such as dress lock, thus the glass container of moulding making molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century is run.As Fig. 1
Glass container is moulded in existing combination principle introduction:
The resistance to 1000 DEG C of high temperature of glass cloth, thus when molding powder with 300 DEG C of heating make mould glass plate time, glass cloth still keeps original tensile property, and order is moulded glass plate and can not be ruptured; In the ratio of glass cloth and plastics, based on glass cloth, plastics use as binding agent, and it is thick that molding powder slurry thickness is less than glass cloth; Plastic tab has elasticity, and when plastic tab is subject to clashing into, impact just passes on glass lines rapidly, is absorbed by glass lines, and order is moulded glass plate and kept complete can not fracture; Plastic wraps glass cloth forms plastic network, and plastic network, glass cloth network closely wrap up mutually, strengthens moulding glass plate impact resistance power; Plastics anti acid alkali performance, makes to mould glass plate tarnish protection stronger than iron and steel, only otherwise by too strong impact, the life-span is century-old; The thermal and insulating performance of moulding glass cystosepiment is stronger than glass epoxy; When weight is identical, mould glass cystosepiment bending resistance ratio and mould glass plate several times by force, and O.3g/cm unit weight can be less than
3; With adhesive, molding powder is starched and does not depart from glass cloth; With flame retardant plastics, the fire resistance of moulding glass container can be improved.In sum, make container with moulding glass cystosepiment, properties is all than well a lot of with steel plate, aluminium sheet, glass epoxy.Moulding glass cystosepiment junction can private school film, enhanced leaktightness degree.
The glass cloth moulding glass plate is O.4 unit/M
2, ten thousand yuan/ton, flame retardant plastics powder, order is moulded glass cystosepiment cost ratio steel plate and is several times lower than; Mould glass container to make and need not weld, not only cost-saving, also improve case speed processed, and strengthen security performance.
Figure of description explanation
Fig. 1, molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century mould glass container
1 molding powder slurry glass cloth lath, 2 narrow slits, 3 lath frameworks, 4 molding powder slurry glass cloth cystosepiments, the multi-layered foamed plate of 5 molding powder slurry glass cloth, 6 column type plastic powder slurry glass cloth cystosepiments, 7 pillars mould glass cystosepiment, and 8 mould glass container.
Claims (1)
1. molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century mould glass container, it is characterized in that, glass cloth is made with facility, or glass cloth is starched by molding powder, molding powder slurry can have adhesive, and plastics can be flame retardant plastics, molding powder is made to starch through glass cloth hole, strike off Unneeded plastic powder slurry, making molding powder starch parcel glass cloth becomes molding powder slurry glass cloth, or becomes molding powder slurry glass cloth; Polylith molding powder slurry glass cloth overlap sticks into molding powder slurry glass-cloth board; Many molding powder slurry glass cloth overlap sticks into molding powder slurry glass cloth lath, and molding powder slurry glass cloth lath is equidistant opens narrow slit, and slit width equals lath thickness, and narrow slit length equals width of sheet half; By the narrow slit of many laths to skewer, stick into as lath framework; Lath framework is placed on molding powder slurry glass-cloth board, then on lath framework, puts molding powder slurry glass-cloth board, stick into as molding powder slurry glass cloth cystosepiment with adhesive; Glass-cloth board starched by lath framework and molding powder, or molding powder slurry glass cloth lath is overlapping, and sticks into the multi-layered foamed plate of molding powder slurry glass cloth with adhesive, or sticks into the multi-layered foamed lath of molding powder slurry glass cloth; The multi-layered foamed lath of molding powder slurry glass cloth, the equidistant molding powder that is placed on is starched on glass cloth cystosepiment, sticks into as column type plastic powder slurry glass cloth cystosepiment with adhesive; By molding powder slurry glass cloth cystosepiment, column type plastic powder slurry glass cloth cystosepiment, the multi-layered foamed plate of molding powder slurry glass cloth, the multi-layered foamed lath of molding powder slurry glass cloth by design perforate or not perforate, putting stove heating after drying into makes molding powder fusible, obtains and moulds glass cystosepiment, pillar moulds glass cystosepiment, mould the multi-layered foamed plate of glass, mould the multi-layered foamed lath of glass after cooling; With moulding glass cystosepiment, pillar moulds glass cystosepiment, mould the multi-layered foamed plate of glass, mould the multi-layered foamed lath of glass, the assembling of steel plate, aluminium sheet, glass epoxy is replaced variously to mould glass container: such as, a. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get that pillar moulds that glass cystosepiment does at the bottom of sidewall, end face, case, case top, chamber door, be assembled on framework with bolt, become interior pillar or outer pillar moulds glass container; B. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get and mould that glass cystosepiment does at the bottom of sidewall, end face, case, nationality top, chamber door, be assembled on framework with bolt, become thin shell type and mould glass container; C. get and mould the multi-layered foamed lath bolt of glass and be assembled into framework, get and mould that the multi-layered foamed plate of glass does at the bottom of sidewall, end face, case, case top, chamber door, be assembled on framework with bolt, become fiberglass formula and mould glass container; Mould glass container and carry out the related process such as dress lock, thus the glass container of moulding making molding powder produce heat insulating and corrosion waterproof impact resistance life-span a century is run.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310312491.9A CN104290331A (en) | 2013-07-15 | 2013-07-15 | Method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder |
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|---|---|---|---|
| CN201310312491.9A CN104290331A (en) | 2013-07-15 | 2013-07-15 | Method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder |
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| CN104290331A true CN104290331A (en) | 2015-01-21 |
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| CN201310312491.9A Pending CN104290331A (en) | 2013-07-15 | 2013-07-15 | Method for producing heat-insulation corrosion, water and bump resistant 300-year-old plastic and glass containers by using plastic powder |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104985833A (en) * | 2015-05-29 | 2015-10-21 | 南通澳兰德复合材料有限公司 | Production method of porous glass fiber reinforced plastics grating plate |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH08224746A (en) * | 1995-02-21 | 1996-09-03 | Tadaaki Shiina | Production of foamed composite having sections |
| CN102002175A (en) * | 2010-11-04 | 2011-04-06 | 博野县橡胶化工行业生产力促进中心 | Rubber and plastic mixture module and manufacturing method thereof |
| CN102294828A (en) * | 2011-09-14 | 2011-12-28 | 绵阳龙华薄膜有限公司 | Preparation method for plain high-light shell of green home appliance |
| CN102514197A (en) * | 2011-12-15 | 2012-06-27 | 福安市东风橡胶制品有限公司 | Silicon rubber wrapped rubber tube using carbon fiber as reinforcing layer and manufacture process thereof |
| CN104249867A (en) * | 2013-06-28 | 2014-12-31 | 廖树汉 | Heat-insulating, anti-corrosion, water-proof and anti-collision plastic cotton container having one hundred-year service life and produced from plastic powder |
-
2013
- 2013-07-15 CN CN201310312491.9A patent/CN104290331A/en active Pending
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH08224746A (en) * | 1995-02-21 | 1996-09-03 | Tadaaki Shiina | Production of foamed composite having sections |
| CN102002175A (en) * | 2010-11-04 | 2011-04-06 | 博野县橡胶化工行业生产力促进中心 | Rubber and plastic mixture module and manufacturing method thereof |
| CN102294828A (en) * | 2011-09-14 | 2011-12-28 | 绵阳龙华薄膜有限公司 | Preparation method for plain high-light shell of green home appliance |
| CN102514197A (en) * | 2011-12-15 | 2012-06-27 | 福安市东风橡胶制品有限公司 | Silicon rubber wrapped rubber tube using carbon fiber as reinforcing layer and manufacture process thereof |
| CN104249867A (en) * | 2013-06-28 | 2014-12-31 | 廖树汉 | Heat-insulating, anti-corrosion, water-proof and anti-collision plastic cotton container having one hundred-year service life and produced from plastic powder |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104985833A (en) * | 2015-05-29 | 2015-10-21 | 南通澳兰德复合材料有限公司 | Production method of porous glass fiber reinforced plastics grating plate |
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Application publication date: 20150121 |