Bucket mould manufacturer and supplier of China!


Contact us

Tel:+86-189 6961 2882

Position: Home > News > Knowledge >

How to reduce bucket mould cycle time?

Date:2018/12/26    Click:

Injection molding is one of the most common plastic manufacturing process used today. In Bucket molding manufacturing process, molten row material is shaped in a mold which the resulting part must be removed after solidification. The process is suitable for volume production due to fast cycle time. Cycle time is the total time required to mold a single shot of plastic to produce a given part. An example of a complete cycle would be from the first moment of injection of plastic in the mold, to the beginning of the following injection of plastic.

How to reduce bucket mould cycle time?

Bucket mould Cycle time directly effects part cost and capacities, so keeping it as low as possible is generally the overarching goal of engineers and project managers. an experienced bucket injection molder can anticipate factors that potentially increase cycle time — like thin steel and hot spots — and proactively prevent them by offering design change options. Calculating bucket mould injection cycle time takes many factors into consideration:
Bucket Wall thickness
The thickest point of the plastic bucket takes the longest to go from a molten state to being rigid enough to eject. Therefore, the thicker the wall the longer the cycle time. If a wall can be thinned without affecting part integrity, costs can likely be cut since there is less required machine time per part in addition to possibly producing more parts per run.
Bucket Plastic type
The chemistry behind the construction of a plastic also underlies cycle time calculation in important ways. Certain polymers may, for example, cool more slowly than others. If chosen for constructing a certain injection molded part, that extra time translates to longer times in the mold, slower ejection and thus extended cycle times.
Bucket Part design
If an injection molder is looped into the design phase, chances are greatly improved that cycle time missteps will be avoided. Understanding that certain design parameters like wrapping plastic entirely around mold steel or other non-flat configuration, designing a mold that cannot accommodate cooling lines or including unduly thick walls not only drive up cooling times, they also introduce failure-inducers like thin steel and hot spots. An injection molder that’s previously been through and resolved these struggles will offer invaluable guidance during the design phase.
Bucket Mold material
Like plastics selection and part design, mold material influences outcomes. Steel is the most common mold material, but there are occasions where heat must be pulled out of the molded plastic faster than steel allows, known as thermoconductivity. In these instances, aluminum or other highly-conductive metals may be inserted within the steel tooling so it comes into strategic contact with the plastic to address potential hot spots without interrupting molding or delaying cycle times.
Bucket Mold cooling design
If containing cooling cannot be adequately accomplished by adjusting mold material, designing the mold to include cooling lines that run through the steel to cool the molded plastic may be an efficient solution. Injection molders that conduct mold fill simulation to estimate of how long it will take that part to reach ejection temperature may encourage the use of cooling lines — or changes to cooling design systems, water temperatures or flow rates — to optimize cycle times and overall molding process.
Taken in total, molders that pay attention to how each of these factors are addressed will keep cycle times low, meaning you can realize increased capacity at decreased costs. What’s more, accurate estimation of bucket mould injection cycle times gives manufacturers the confidence they need in production timelines, from part cost accuracy in planning stages and sales forecasting to part availability for meeting order fulfillment demands.

Add: No.1 Beiyuan Rd, Beicheng, Huangyan,Taizhou,Zhejiang, China.
Copyright © 2018-2020 Seaco Mould. All rights reserved.