Plastic Enclosures For Electronic Instruments

Plastic Enclosures For Electronic Instruments

PC material plastic enclosures for electronic instruments used for mobility payment device in Asia Market, 4 pcs plastic parts, one piece transparent glass for scanning, the front frame, main body and plastic bottom part.

Product Details

polycarbonates ( PC) material plastic enclosures for electronic instruments used for mobility payment device in Asia Market, 4 pcs plastic parts, one piece transparent glass for scanning, the front frame, main body and plastic bottom part.

Project details as below :




plastic  enclosures for electronic instruments injection mold

Core surface finish:

Normal polish or mirror  polish

Production Material:

Cavity surface finish:

MATT finish or Mirror polish

No of Cavities:

1x2 cavities ( total 4 moulds)

Injection System

Cold runner

Core Material:

H13 or S136 with heat  treatment

Type of gating:

Sub gate and edge gate

Cavity Material:

LKM S136 with heat treatment

Ejection system:

Ejection pin

Slider material:

8 pieces angle lifter

Lead time for FOT:

5 weeks

Mold base steel:


Shot life:

1 000 000

Mold Standards:

LKM Asia standard


Asia Billion


 Product Characters:

1) High quality plastic enclosures for electronic instruments

2)    Mirror polishing for the PC material glass

3)   UV, Fire resistance testing and certified

4)   Low and high temperature residence testing

     Asia Billion is a custom plastic enclosures injection mold and plastic molding manufacture in Shenzhen south of China, we are ISO 9001 certified and accord to the TS 16949 standard to control our manufacturing process. We have a lot of different plastic enclosures for electronic instruments experience, If you have any plastic enclosures project or similar with this, please contact us freely.

Asia Billion mold making process:

Asia Billion plastic enclosures for electronic instruments mold making process

Asia Billion Engineering and Project control Capacity:

Asia Billion plastic enclosures for electronic instruments mold making Engineering and Project control Capacity

Asia Billion Mold Workshop Overview:

Asia Billion Mold Workshop Overview

Asia Billion Quality Control:

mold quality control

Causes and prevention of warping, bending and twisting of injection molded parts

1.     Insufficient cooling or unevenness

   When it is not fully cooled, the top thrust of the ram tends to deform the molded part, so if it is not sufficiently cooled, the mold release will be deformed. The countermeasure is to fully cool in the cavity, and then to fully eject before ejecting. It is also possible to reduce the mold temperature and extend the cooling time. However, some of the molds have insufficient local cooling and cannot be prevented from deformation under normal molding conditions. In this case, consider changing the path of the cooling water, the location of the cooling channel, or adding additional cooling holes. In particular, consider using no water cooling or air cooling.

2, caused by the ejector

   Some of the parts have poor mold release properties, and the ejector rods are forcibly demolded to cause deformation. For plastic parts that are not easily deformed, no deformation occurs at this time, but cracks are generated. For ABS and polystyrene parts, this deformation is manifested by the blush of the pushed part (see cracking, cracking, micro-cracking, and blushing). The elimination method is to improve the polishing of the mold, making it easy to release the mold, and sometimes using the release agent to improve the mold release. The most fundamental improvement method is to grind the core, reduce the mold release resistance, or increase the draft angle, and add a ejector at the point where it is difficult to ejector, and it is more important to change the ejector mode.

3, caused by molding strain

   The deformation caused by the forming strain is mainly caused by the difference in the direction of the forming shrinkage and the change in the wall thickness. Therefore, increasing the mold temperature, increasing the melt temperature, lowering the injection pressure, improving the flow conditions of the casting system, etc., can reduce the difference in the direction of shrinkage. However, it is difficult to correct only the molding conditions, and it is necessary to change the position and the number of the gates, for example, from one end when forming a long rod.

   Sometimes it is necessary to change the configuration of the cooling water channel; the longer sheet-like parts are more easily deformed, and sometimes the partial design of the part needs to be changed to provide reinforcing ribs on the back side of the upper side. It is mostly effective to use auxiliary tool cooling to correct this deformation. If it cannot be corrected, the mold design must be corrected. Among them, the most important thing is to make the wall thickness of the product consistent. In the case of last resort, the mold must be corrected in the opposite direction by measuring the deformation of the product.

4, crystalline plastic

   The resin with a large shrinkage ratio is generally a crystalline resin (such as polyacetal, nylon, polypropylene, polyethylene, and PET resin) than a non-crystalline resin (such as PMMA resin, polyethylene, polystyrene, ABS resin, and AS). The deformation of the resin or the like is large, and since the glass fiber reinforced resin has fiber orientation, the deformation is also large.

   Most of the melting point temperature range is deformed and is often difficult to correct. The crystallinity of the crystalline plastic varies depending on the cooling rate, that is, the sharp cooling crystallinity decreases, the molding shrinkage rate decreases, and the slow cooling crystallinity increases and the molding shrinkage rate increases. A special correction method for the deformation of crystalline plastics is to take advantage of this property.

   The correction method actually used is to make the dynamic and static modes have a certain temperature difference. The deformation is corrected by taking the temperature at which the other side of the warpage is strained. Sometimes this temperature difference is as high as 20 ° C or more, but it must be distributed very evenly. It must be pointed out that in the design of crystalline plastic molded parts and molds, if special deformation prevention measures are not taken in advance, the parts may not be used due to deformation, and only the molding conditions meet the above requirements, and most of the cases still cannot Correct the deformation.

5, the method of warping the product

   If the product removed from the mold is to be corrected, the product to be corrected is placed on the correcting tool in a simple manner, and the weight is added to the warped portion, but the weight of the weight must be clearly determined.

   Or put the warped product on the straightener, put it into the hot water near the heat distortion temperature of the product, and simply straighten it by hand. However, it should be noted that the temperature of the hot water should not be too high, otherwise the deformation of the product will be more harmful.

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