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Home > products > Silicone Rubber Parts > ISO9001 Custom Die Steel Silicone Compression Mold

ISO9001 Custom Die Steel Silicone Compression Mold

Product Details

Place of Origin: CHINA

Brand Name: OEM

Certification: ISO

Model Number: OEM

Payment & Shipping Terms

Minimum Order Quantity: 1 set,5,000pcs

Price: USD,Negotiation

Packaging Details: PE+Carton

Delivery Time: 7~15 work days (Products)

Payment Terms: T/T, Western Union,Paypal

Supply Ability: 20sets,800,000pcs/month

Get Best Price

Die Steel Silicone Compression Mold


ISO9001 Silicone Compression Mold


Custom Silicone Compression Molding

High Quality Die Steel
Lead Time:
Within 15 Days
High Quality Die Steel
Lead Time:
Within 15 Days
ISO9001 Custom Die Steel Silicone Compression Mold
Factory custom silicone compression mold tools

Product Introduction


Silicone compression mold is widely used in silicone rubber factories due to its simple structure, low cost and stable and reliable process. We have more than 15 years of experience in precision mold design and manufacturing. We can design and manufacture special silicone compression mold and LSR liquid silicone injection mold according to customers' products, and can also undertake OEM/ODM orders.For guests processing all kinds of silicone products, welcome to contact us at any time.




ISO9001 Custom Die Steel Silicone Compression Mold 0

Product Specifications


Material High quality die steel
Certificate ISO9001
Lead time within 20 days
Type Customized


Product Pictures



ISO9001 Custom Die Steel Silicone Compression Mold 1


The structure of the thermosetting liquid silicone rubber (LSR) injection mold is generally similar to the mold structure used for thermoplastic rubber, but there are many significant differences. For example, LSR compounds generally have a low viscosity, so the filling time is very short, even at very low injection pressures. In order to avoid air retention, it is very important to set up a good exhaust device in the mold.


In addition, LSR compounds do not shrink like thermoplastic compounds in the mold, they tend to expand when exposed to heat and shrink slightly when exposed to cold. Therefore, the product does not always stay on the convex surface of the mold as expected, but stays in the cavity with a larger surface area.




LSR liquid silicone mold design to pay attention to the seven points


1. Shrinkage

Although LSR does not shrink in the mold, they often shrink by 2.5%-3% after demolding and cooling. As for the shrinkage, to a certain extent depends on the formula of the compound. However, from the perspective of the mold, the shrinkage rate may be affected by several factors, including the temperature of the mold, the temperature at which the compound is released, and the pressure in the cavity and the subsequent compression of the compound.


ISO9001 Custom Die Steel Silicone Compression Mold 2


The location of the injection point is also worth considering, because the shrinkage in the direction of flow of the compound is usually greater than the shrinkage in the direction perpendicular to the flow of the compound. The shrinkage rate of the outer dimension alignment of the product also has an effect, and the shrinkage rate of thicker products is generally smaller than that of thinner ones. If secondary vulcanization is required, it may shrink by 0.5%-0.7%.


2. Parting line

Determining the position of the parting line is one of the first steps in designing a silicone rubber injection mold. The exhaust is mainly realized by the grooves located on the parting line, and such grooves must be in the area where the injection molding compound finally reaches. This helps to avoid internal bubbles and reduce the strength loss of the adhesive joint.


Due to the low viscosity of LSR, the parting line must be precise to avoid glue overflow. Even so, parting lines can often be seen on finalized products. Demoulding is affected by the geometric size of the product and the position of the parting surface. Designing the product with a slightly chamfered corner helps to ensure that the product has a consistent affinity for the other half of the cavity required.


3. Exhaust

With the injection of LSR, the air trapped in the mold cavity is compressed when the mold is closed, and then is discharged through the vent groove along with the mold filling process. If the air cannot be completely discharged, it will stay in the rubber (this will often cause part of the product to expose white edges). The general width of the ventilation groove is 1mm-3mm, and the depth is 0.004mm-0.005mm.


Vacuum in the mold can create the best exhaust effect. This is achieved by designing a gasket on the parting line and quickly evacuating all the mold cavities with a vacuum pump. Once the vacuum reaches the rated level, the mold is completely closed and pressure injection begins.


Some injection molding equipment allows to operate under a variable closing force, which allows the machine operator to close the mold at a low pressure until 90%-95% of the mold cavity is filled with LSR (to make the air easier to discharge), and then Switch to a higher closing force to prevent silicone rubber from swelling and overflowing.


ISO9001 Custom Die Steel Silicone Compression Mold 3


4. The injection point

A cold runner system is used when molding LSR. It can maximize the advantages of this compound and increase the production efficiency to the highest limit. In such a way to process products, there is no need to remove the glue injection channel, thereby avoiding increased labor intensity of the operation, and sometimes a large amount of waste of materials. In many cases, the structure without glue injection can also shorten the operation time.


5. Mold release

The vulcanized liquid silicone rubber easily adheres to the metal surface, and the flexibility of the product makes it difficult to demold. The high temperature tear strength of LSR can make it demould under normal conditions, even larger products will not be damaged. The most common demolding techniques include stripping template demolding, demolding pin demolding and pneumatic demolding. Other common techniques include roller scraping, ejection plate demoulding and automatic mold control.


6. Mold material

The mold pallet is usually made of non-alloy tool steel (no.1.1730, DIN code C45W). For the mold pallet that needs to withstand the high temperature of 170℃-210℃, considering the impact resistance, pre-tempered steel (no. 1.2312, manufactured by DINcode 40 CrMn-M oS 8 6). For the mold pallet with the mold cavity, it should be made of nitriding or tempering heat-treated steel to ensure its high temperature resistance.


For high-filled LSR, such as oil-resistant LSR, it is recommended to use higher hardness materials to make molds, such as bright chrome-plated steel or powder metal specially developed for this purpose (no.1.2379, DINcode X 155 CrVMo121). When designing high-wear material molds, the parts that bear high friction should be designed to be replaceable, so that the entire mold does not need to be replaced.


The inner surface of the cavity has a great influence on the finish of the product. The most obvious is that the shaped product will completely match the cavity surface. The mold for transparent products should be made of polished steel. The surface-treated titanium/nickel steel has extremely high abrasion resistance, while polytetrafluoroethylene (PTFE)/nickel can make demoulding easier.


7. The temperature control

Generally speaking, the molding of LSR adopts electric heating method, usually heating by band electric heater, cylindrical heater or heating plate. The key is to make the temperature field of the entire mold evenly distributed to promote uniform curing of LSR. In large molds, it is an economical and effective heating method to push oil temperature control heating.


Xiamen Juguangli company, not only can make rubber compression tooling & plastic injection molding, produce silicone rubber compression parts & products, but also can make liquid silicone rubber injection mold and produce liquid silicone products.