In the molding industry, Mould is one of the essential production tools, but how to evaluate a set of mould, The heat exchange efficiency is an important parameter, In part two of our three-part sub-series on mold water cooling systems, we review water quality and its impact on mold performance.
Plant water quality is a common problem within some plastic injection molding facilities. However, in some plants, it takes feeling the effects of lost capacity, a growing scrap rate and increasing process inconsistencies reaching the end customer for the molder to consider the water system as the problem. Water quality as it relates to injection molding is a complex issue, and this article will focus only on how it affects mold performance and maintnenance.
Remember, a mold is a heat exchanger, and water quality is a critical component to maintaining operational efficiency. There are simple measures a mold designer can take to efficiently maintain water system performance of a mold. Designing with multiple straight-through water lines is one of them. This eases scale removal by either drilling or chemical wash while improving performance. The key to efficiency is to design a serviceable water cooling system, and clean water is essential to such a system.
First, to define “clean” water, you need an understanding of some “bad” water basics. Three common contributors to bad water are:
1)Biofouling, which is the accumulation of microorganisms, plants or algae on wetted surfaces.
2)Galvanic corrosion, which is an electrochemical process where one metal corrodes preferentially to another when both metals make electrical contact in the presence of an electrolyte. For example, this can occur when an aluminum water manifold makes contact with a galvanized steel pipe, which causes the metal to corrode and become a contaminant in the water system.
3) Scale, which is the buildup of salts and minerals (impurities) on hot surfaces that can be found in the initial water source.
Next, you need to be familiar with the two popular types of plant water systems, which we will review in greater detail next month:
1)Closed-loop water systems, which are designed to supply either hot or chilled water to a heat exchanger and then return the water to the point of origin to repeat the process. This closed system protects the water from outside contamination.
2)Open recirculating cooling systems, which use the same water repeatedly to cool equipment. The heat absorbed from the process must be dissipated to allow the water’s reuse, and this is achieved via cooling towers, spray ponds or evaporative condensers. This type of cooling system exposes the water to outside contaminants including dirt, leaves (such as from a field located next to the plant) and insects (such as lady bugs).
There are concerns with both of these types of plant water systems. For example, the temperatures common during the molding process can cause scaling, and salt and mineral (impurities) buildup on hot surfaces. This reduces the system’s ability to transfer heat. Another concern is corrosion caused by water quality or galvanic corrosion from use of dissimilar metals throughout the water loop. Finally, fouling, also referred to as biofouling, is another concern in both system types. Closed-loop systems can also develop anaerobic bacteria fouling, but more common is fouling in cooling tower systems, which is caused by organic material being sucked into the tower, sunlight and warmer water temperatures.
Cleaning water lines in an injection mold can be accomplished by two basic methods:
1)Manually, by drilling or scraping. This can be time-consuming and can damage pipe threads in the process, but it does guarantee flow.
2)Chemical bath, by flowing chemicals such as an acid or a descaler through the water lines. However, be aware that fluids take the path of least resistance, so if you have multiple lines from a manifold, you may want to consider looping sections to force the solution through every channel.
If water quality is the root cause of a molder’s problem, the evidence (scale, for example) will be in the mold’s water channels. Learning these water quality basics will allow the moldmaker to provide greater value to its customers by being able to solve their plastic injection molding problems
temperature control is a critical consideration in injection molding. Effective temperature control prevents quality issues such as shrinkage, warping and stresses from developing in the material. A critical technical objective is to find a balance among:
The temperature of the cooling fluid.
The rate of mold cooling.
The quality of the final product, keeping in mind that the speed of production is proportional to profitability.
Many manufacturers use cooling tower water to cool the small channels within the mold with a temperature regulator attached to the injection-molding machine, regulating its temperature. While this technique is effective and incurs a lower operating cost, the mold will be prone to contamination. Cooling towers are open-loop systems. By contrast, an industrial chiller can be used to regulate the temperature via closed-loop cooling, ensuring a higher degree of product purity.
When plastics for the injection-molding process are being heated and mixed inside a machine, a specific temperature limit must be maintained as the temperature of the process will directly impact the quality of the final mixture.
If the temperature is too low, the components may not mix properly. Alternately, when the temperature is too high, the mixture might become burned. Thus, there is typically an ideal point, or a prescribed temperature at which the process must be maintained.
a perfect heat exchange system is a dream for every injection mold designer
as a mold designer, I want to say This is an idealized design
it is not easy to design a perfect heat exchange system in every mold.
a perfect mould is a per heat exchange system
a perfect heat exchange system is very important for an injection molding
Excellent blog ! I would like to say this site will benefit many peoples in mold industry
this is a good idea, but it is not easy to make it perfect every time
in mold design, we always meet that kind of issue,sometimes it is very defficult
yes! that is important, but it is not easy
your opinion is correct, but it is not easy to come true
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but actually, in my opinion, it is not easy to come true
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I think every mold designer want to design every mould like this, but it is not easy
I call it balance system, because it is impossible to match all your requirements
you are right! as a mold designer, I understand what you are talking about
cooling and heating system is very important for injection molding
actually every mould is a set of heat exchange system
this is our goal! I think that is not easy to do it.
you are right! our mold designers understand it very well.
This is a goal every mould engineer want to achieve
Thanks for sharing such a good article, it is very useful
a perfect heat exchange system is a balance system
actually a perfect mould will have a perfect heat exchange system
I am a mold designer, I want to say this is my goal:-)
a perfect heat exchange system is a Comprehensive concept, I mean too much need to be considered
sometimes it is not easy to come ture, because of product or mould struture
In my opinion, it is actually a balance system, which conforms to the law of conservation of energy
I am glad to get your experiences about this issue, I really need your experiences to guide me. thanks!
you are a real expert in mold deign. yes!I agree with you at all
actually a perfect solution in some mold designs is very difficult to find
this is just an ideal, I think every mould designer will agree with me
I am a mold designer, I want to show my opinion, actually, it is not easy to do that, sometimes, It’s hard to choose
as an injection molding engineer, I want to show my thank to you
we know a set of mold is just a heat exchange system, but if we need a perfect heat exchange system in every mold, that is very difficult, I mean it just infinitely close to it
Right now I am designing a mold,I am entangled with some design details,after reading it, This article gave me good guidance, thank you
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that is what I am interested in, actually in order to make it come ture, We usually take overall consideration.