CN202192813U - Anti-static packing material - Google Patents

Abstract

The utility model discloses an anti-static packing material comprising an inner layer, a secondary inner layer, a secondary outer layer and an outer layer, wherein the inner layer is a polyethylene film layer; the secondary inner layer is a metal layer; the secondary outer layer is a polyester film layer; and the outer layer is an anti-static layer which is made of nano-stannic dioxide polyurethane material mixed with antimony. The anti-static packing material has the advantages of high shielding function, high anti-static performance, and high mechanical strength, is suitable for producing various anti-static packing bags, and can be used for packing highly integrated electronic components, semi-conductors, integrated circuits, precision instrument equipment and the like with high anti-static requirements.

Description

Antistatic packaging material

Technical field

The utility model relates to the chemical industry packaging material, relates in particular to a kind of antistatic packaging material.

Background technology

In the prior art, for semiconductor product, highly integrated precision electronic element; Assembly and precision instrument and equipment, Medical Devices and chemical products etc. deposit, in the transport process, because the influence in friction, bump, external electrical field and magnetic field; Be easy to generate static, electrostatic precipitation can influence performance of products, and accumulation of static electricity can produce discharge under appropriate condition; Cause product failure or component wear, may cause great economic loss.In order to prevent the interference of static, through using antistatic packaging material, lead destaticing through antistatic packaging material, to solve the electrostatic problem of product in depositing, turning round to the packing of product to product.In addition, some products also need the static packaging material to have the function of the electromagnetic radiation of preventing for fear of electromagnetic interference.

The utility model content

In view of foregoing, the utility model provides a kind of antistatic performance good and antistatic packaging material that can anti-electromagnetic radiation.

A kind of antistatic packaging material comprises internal layer, inferior internal layer, inferior skin and skin, and internal layer is a film layer, and inferior internal layer is a metal level, and inferior skin is a laminated polyester film, and skin is an antistatic backing, and this antistatic backing is a conductive nano composites.

Compare prior art, this antistatic packaging material is through adopting film layer, metal level, laminated polyester film and antistatic backing, and polyethylene has the high characteristic of mechanical strength; And metal level has shielding action, and this laminated polyester film has had preferable mechanical strength, and combines preferably with the antistatic backing of coating; Antistatic backing is a conductive nano composites; Like nanometer antimony-doped stannic oxide (ATO) polyurethane material, polyamide Nano graphite material has preferable leading and destatics performance.

Description of drawings

Fig. 1 is the cross section structure sketch map of the utility model antistatic packaging material.

The specific embodiment

By the technology contents, the structural feature that specify the utility model, realized purpose and effect, know clearly below in conjunction with embodiment and conjunction with figs. and give explanation.

See also accompanying drawing 1, the utility model antistatic packaging material 100 comprises internal layer 10, inferior internal layer 20, inferior outer 30 and outer 40 successively.Said internal layer 10 is a film layer, and inferior internal layer 20 is a metal level, and inferior outer 30 is laminated polyester film, and outer 40 is antistatic backing.Said time internal layer 20 is formed on the internal layer 10 through plating/vapor deposition, and said time skin 30 sticks on time internal layer 20 through adhesive 32.Said outer 40 are compounded in time on outer 30 through dry method.

This skin 40 is a conductive nano composites, like nanometer antimony-doped stannic oxide (ATO) polyurethane material or polyamide Nano graphite material.Wherein, Nanometer antimony-doped stannic oxide (ATO) polyurethane material; Nanometer antimony-doped stannic oxide is a kind of N-type semiconductor material; Compare with traditional anti-static material, have remarkable advantages, show good electrical conductivity, light-coloured transparent property, good weatherability and stability and low infrared emittance etc.Because the specific area of nanometer antimony-doped stannic oxide is big, the surface can be high, when preparation nanometer antimony-doped stannic oxide polyurethane material, nanometer antimony-doped stannic oxide very easily adsorbs and reunites, and causes defective to make outer 40 antistatic performance reduce.Through being matrix with the aliphatic polyurethane elastic resin, antimony-doped stannic oxide (ATO) conducting powder is a conducting medium, adds hyper-dispersant, and the process for dispersing that adopts physics to combine with chemofacies carries out preliminary treatment to nanometer antimony-doped stannic oxide.The difficult problem of nano ATO particle aggregation can be solved, nanometer antimony-doped stannic oxide normal temperature solidified, color tunable (ATO) polyurethane material can be prepared.

Said polyamide Nano graphite material has preferable leading and destatics performance; Its concrete preparation process is following: it is to soak in 4: 1 the mixed liquor of the concentrated sulfuric acid and red fuming nitric acid (RFNA) that 30-200 purpose natural flake graphite is joined mass ratio; Then after washing, dried; Carry out heat treated, temperature 900-1100 ℃, obtain expansion multiple at the expanded graphite more than 200 times; Polyamide 90～99 mass parts are joined in the certain amount of solvent; Treat that polyamide dissolves the back fully to wherein adding above-mentioned expanded graphite 1～10 mass parts; Ultrasonic 2h obtains homodisperse mixture; Under strong agitation, add precipitating reagent then and make mixture precipitation,, prepare polyamide Nano graphite material again with sediment suction filtration, drying.

This antistatic packaging material is through adopting film layer, metal level, laminated polyester film and antistatic backing; Polyethylene has the high characteristic of mechanical strength, and metal level has shielding action, and this laminated polyester film has had preferable mechanical strength; And combine preferably with the antistatic backing of coating; Antistatic backing is a conductive nano composites, can be nanometer antimony-doped stannic oxide (ATO) polyurethane material or polyamide Nano graphite material, has preferable leading and destatics performance.

The above is merely the embodiment of the utility model; Be not thus the restriction the utility model claim; Every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to be done; Or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the utility model.

Claims (4)

1. an antistatic packaging material comprises internal layer, inferior internal layer, inferior skin and skin, and internal layer is a film layer, and inferior internal layer is a metal level, and inferior skin is a laminated polyester film, and skin is an antistatic backing, and this antistatic backing is a conductive nano composites.

2. antistatic packaging material as claimed in claim 1 is characterized in that: said time internal layer is formed on the internal layer through plating/vapor deposition.

3. antistatic packaging material as claimed in claim 1 is characterized in that: be provided with adhesive between said the outer and inferior internal layer.

4. antistatic packaging material as claimed in claim 1 is characterized in that: said skin is compounded on time skin through dry method.

Images