Mold trial before injection production
A mold trial is an essential part of the production process before a new mold is injection molded or when the machine is replaced with another mold. The result of the mold trial will directly affect the smoothness of the subsequent production of the plant. Therefore, it is necessary to follow reasonable operation steps and record useful technical parameters in the process of mold trial in order to facilitate the mass production of products.
I. Precautions before the mold test
1. Know the information about the mold.
It is better to get the design of the mold, analyze it in detail, and get the mold technician to participate in the mold test.
2. Check the mechanical action on the working table first.
To pay attention to whether there are scratches, missing parts, and looseness, whether the mold to slide action is true, water and gas pipe joints have no leakage, the mold opening range, if there are restrictions, should also be marked on the mold. If the above actions can be done before hanging the mold, it can avoid the waste of time when hanging the mold and then disassembling the mold.
3. When the mold is determined to be suitable for each action, it is necessary to choose a suitable test injection machine.
(a) what is the maximum injection volume of the injection molding machine
(b) whether the inner distance of the tie bar can accommodate the mold
(c) whether the maximum moving stroke of the movable template meets the requirements
(d) whether other related tools and accessories for mold testing are ready.
The next step is to hang the mold after all the problems are confirmed. When hanging, attention should be paid to not taking down the hanging before locking all the clamping plates and opening the mold, so as to avoid loosening or breaking the clamping plates and dropping the mold. After the mold is installed, the mechanical action of each part of the mold should be carefully checked, such as the slide plate, ejector pin, retracting tooth structure and the action of the restriction switch are true. And pay attention to whether the injection nozzle and the inlet are aligned.
The next step is to pay attention to the mold closing action. At this time, the mold closing pressure should be turned down, and in the manual and low-speed closing action, pay attention to see and hear if there is any uneven action and strange sound. The process of lifting the mold is actually relatively simple, the main place that needs careful attention is that the centering of the mold gate and injection nozzle is difficult, usually, you can use the test paper to adjust the centering.
4. Increase the mold temperature.
According to the performance of the raw materials used in the finished product and the size of the mold, choose the appropriate mold temperature control machine to raise the temperature of the mold to the temperature required for production. After the mold temperature is raised, the action of each part should be checked again, because the steel may cause jamming after thermal expansion, so the sliding of each part should be paid attention to to avoid strain and chattering.
5. If there is no experimental plan implemented in the factory, we suggest that only one condition should be adjusted at a time when adjusting the test mold conditions in order to distinguish the impact of a single condition change on the finished product.
6. Depending on the raw materials, the raw materials used should be baked appropriately.
7. Use the same raw material as much as possible for the trial mold and future mass production.
8. Don't try the mold completely with inferior material, if there is a demand for color, you can arrange the color test together.
9. Internal stress and other problems often affect the secondary processing, should be in the mold after the test to be stable after the finished product that is to be the secondary processing mold in the slow closing, to adjust the mold pressure, and action several times to see if there is uneven closing pressure and other phenomena, so as to avoid the finished product generated burr and mold deformation.
After the above steps are checked, the closing speed and closing pressure will be lowered, and the safety lever and ejector stroke will be set, and then the normal closing speed and closing speed will be adjusted. If the maximum stroke limit switch is involved, adjust the mold opening stroke slightly shorter and cut off the high-speed mold opening action before the maximum stroke. This is because the high-speed action stroke is longer than the low-speed one during the whole opening stroke of the mold loading. In the plastic machine, the mechanical ejector rod must also be adjusted to the role of the full-speed mold opening action after the ejector plate or stripping plate to avoid deformation of the force.
Second, before making the first mold injection, please check the following items again.
(a) Whether the material filling stroke is too long or insufficient.
(b) Whether the pressure is too high or too low.
(c) Whether the mold filling speed is too fast or too slow.
(d) Whether the processing cycle is too long or too short.
In order to prevent the finished product from the short shot, breakage, deformation, burr, and even injury to the mold.
If the cycle time is too short, the ejector pin will pierce the finished product or peel the ring and squeeze the finished product. This type of situation can take you two or three hours to remove the finished product. If the cycle time is too long, the weak part of the die may break due to the shrinkage of the rubber. Of course, you cannot anticipate all the problems that may occur during a mold test, but well thought out and timely measures taken in advance will help you avoid serious and expensive losses.
III. Main steps of mold trial
In order to avoid unnecessary waste of time and trouble during mass production, it is indeed necessary to be patient in adjusting and controlling various processing conditions, and to find out the best temperature and pressure conditions, and to develop standard mold trial procedures that can be used to establish daily working methods.
1. Check whether the plastic material in the barrel is correct and whether it is baked according to the regulations (test mold and production are likely to yield different results if different materials are used).
2. Make sure the material tube is cleaned thoroughly to prevent poorly solved rubber or miscellaneous materials from being shot into the mold, because poorly solved rubber and miscellaneous materials may seize the mold. Check whether the temperature of the material tube and the temperature of the mold are suitable for the processed material.
3. Adjust the pressure and shot volume to produce a satisfactory appearance of the finished product, but do not run rough edges especially when there are still some mold cavities where the finished product is not completely solidified, think before adjusting the various control conditions because a slight change in the mold filling rate may cause a large change in the mold filling.
4. Be patient and wait until the machine and mold conditions stabilize, even for medium-sized machines it may take more than 30 minutes. You can use this time to check the finished product for possible problems.
5. The screw advance time should not be shorter than the gate plastic solidification time, otherwise, the weight of the finished product will be reduced and the performance of the finished product will be damaged. And when the mold is heated, the screw advance time should be extended to compact the finished product.
6. Reasonable adjustment to reduce the total processing cycle.
7. Run the new conditions for at least 30 minutes to stabilize, and then produce at least one dozen full mold samples in a row, marking the date and quantity on the containers and placing them separately by mold cavity to test the stability of the operation and to derive reasonable control tolerances. (Especially valuable for multi-cavity molds).
8. Measure and record the important dimensions of the consecutive samples (should wait until the samples cool to room temperature).
9. Compare the dimensions of each mold sample, noting.
(a) Whether the dimensions of the product are stable or not.
(b) Whether there is a tendency for some dimensions to increase or decrease while the machine processing conditions are still changing, such as poor temperature control or oil pressure control.
(c) Whether the dimensional changes are within the tolerance range.
If the finished product does not vary much in size and the processing conditions are normal, observe if the quality of the finished product is acceptable and the dimensions are within tolerances for each die cavity. Put down the number of the mold cavity which is continuously measured or larger or smaller than the average, in order to check whether the mold size is correct.
Record the parameters obtained during the mold test
Record and analyze the data for modifying the mold and production conditions, and for future reference in mass production.
1. Make the processing running time longer to stabilize the melt temperature and hydraulic oil temperature.
2. Adjust the machine conditions according to the oversize or undersize of all finished products. If the shrinkage rate is too large and the finished products seem to be undershot, you can also refer to increasing the gate size.
If the die cavity and gate size are still correct, then we should try to change the machine conditions, such as mold filling rate, mold temperature, and pressure of each department, and check if some die cavities are slow to fill.
4. According to the finished product of each mold cavity or mold pistons shift, to be corrected, perhaps try to adjust the mold filling rate and mold temperature in order to improve its uniformity.
5. Check and modify the malfunction of the injection machine, such as oil pump, oil valve, temperature controller, etc., will cause changes in processing conditions, even if the most perfect mold can not play a good efficiency in a poorly maintained machine. After reviewing all the recorded values, keep a set of samples to check and compare whether the corrected samples are improved.
Keep all the records of the sample inspection during the mold trial, including the processing cycle, various pressures, melt and mold temperatures, tube temperatures, injection action times, screw charging periods, etc. In short, keep all the data that will help establish the same processing conditions in the future so that you can obtain products that meet quality standards.
At present, the factory often ignore the mold temperature during the mold test, and the mold temperature is not easy to grasp during the short mold test and future mass production, and the incorrect mold temperature is enough to affect the size of the sample, light, shrinkage, flow and under the material, etc., if the mold temperature controller is not used to be when the future mass production may have difficulties.
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