Custom Manufacturing
Silicone molding, plastic injection, and precision parts production — engineered to your specifications.
Our Manufacturing Capabilities
Four production methods under one roof, matched to your project requirements.
Vacuum Compression Molding
Our core production method. Ideal for silicone parts requiring precision detail and surface quality. Uses vacuum to eliminate air pockets and ensure complete cavity fill.
Best for: Keypads, gaskets, seals, precision detail parts
Silicone Injection Molding
Coming Q3 2026Liquid silicone rubber (LSR) injection molding for high-volume production of complex silicone parts. Coming soon to our factory.
Best for: High-volume production, complex geometries, overmolded parts
Plastic Injection Molding
Production of precision plastic components using industry-standard thermoplastics including ABS, PC, PP, and nylon.
Best for: Rigid plastic parts, large-volume runs, multi-material products
Silicone Extrusion
Coming 2026Continuous extrusion production of silicone tubes, hoses, profiles, and seals. Expanding our capabilities.
Best for: Tubing, hoses, seals, continuous profile parts
Silicone Molding Process
From master pattern to finished parts — our four-step production workflow.
Prepare the Master
The master model can be made from any stable material, or provided directly by the customer. We typically produce masters via CNC machining or 3D printing using plastic or metal materials that remain stable at 60–70 °C.
Prepare the Master
The master model can be made from any stable material, or provided directly by the customer. We typically produce masters via CNC machining or 3D printing using plastic or metal materials that remain stable at 60–70 °C.
Create the Silicone Mold
The master is placed in a casting box and liquid silicone is poured around it. After curing at 60–70 °C in an oven, the silicone is cut in half and the master removed, leaving a precise negative mold.
Create the Silicone Mold
The master is placed in a casting box and liquid silicone is poured around it. After curing at 60–70 °C in an oven, the silicone is cut in half and the master removed, leaving a precise negative mold.
Cast the Parts
Compound materials are injected into the mold under vacuum to eliminate air pockets and ensure complete cavity fill. Once cured, the part is demolded — an exact replica of the original master.
Cast the Parts
Compound materials are injected into the mold under vacuum to eliminate air pockets and ensure complete cavity fill. Once cured, the part is demolded — an exact replica of the original master.
Surface Treatment & QC
We offer deburring, sandblasting, polishing, painting, drilling, tapping, silk-screening, and laser engraving. Every part passes inspection by our quality control team before shipment.
Surface Treatment & QC
We offer deburring, sandblasting, polishing, painting, drilling, tapping, silk-screening, and laser engraving. Every part passes inspection by our quality control team before shipment.
Plastic Injection Molding
High-volume production of precision plastic components.
Common Thermoplastics
ABS
Smooth, rigid, and tough. Ideal for components requiring tensile strength and stability.
Nylon (PA)
Good temperature and chemical resistance. Available in multiple grades.
Polycarbonate (PC)
Lightweight with high impact strength, stability, and electrical properties.
Polypropylene (PP)
Semi-rigid, translucent, and tough with excellent fatigue and heat resistance.
Material & Mold Selection
Each thermoplastic is matched to the right mold geometry and end-use requirements, balancing mechanical properties, temperature tolerance, and surface finish.
Material & Mold Selection
Each thermoplastic is matched to the right mold geometry and end-use requirements, balancing mechanical properties, temperature tolerance, and surface finish.
Feeding & Melting
Thermoplastic pellets are fed into the injection molding machine and heated to their melting point. Electric-powered machines offer precise control with lower energy consumption.
Feeding & Melting
Thermoplastic pellets are fed into the injection molding machine and heated to their melting point. Electric-powered machines offer precise control with lower energy consumption.
Injection
Molten plastic is injected into the closed mold under high clamp pressure. The gate controls material flow while the screw builds and releases injection pressure.
Injection
Molten plastic is injected into the closed mold under high clamp pressure. The gate controls material flow while the screw builds and releases injection pressure.
Holding & Cooling
The mold is held under pressure while the plastic cools and solidifies. Holding time varies from milliseconds to minutes depending on part complexity and material.
Holding & Cooling
The mold is held under pressure while the plastic cools and solidifies. Holding time varies from milliseconds to minutes depending on part complexity and material.
Ejection & Finishing
Pins or plates eject the formed part onto a conveyor. Final finishing — polishing, dying, spur removal — is completed before packing and distribution.
Ejection & Finishing
Pins or plates eject the formed part onto a conveyor. Final finishing — polishing, dying, spur removal — is completed before packing and distribution.
Silicone Grades We Work With
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HCR (High Consistency Rubber) — Traditional silicone for compression molding
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LSR (Liquid Silicone Rubber) — Flowable silicone for injection molding
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RTV (Room Temperature Vulcanizing) — Cures at room temperature, ideal for prototypes
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Food-grade silicone — FDA and LFGB compliant formulations
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Medical-grade silicone — USP Class VI materials available
Technical Specifications
- Hardness range
- 10A – 80A Shore
- Temperature range
- -50°C to 250°C
- Tolerance
- ±0.05mm (standard)
- Minimum wall thickness
- 0.5mm
- Maximum part size
- 300 × 300 × 100mm
- Color options
- Custom Pantone matching
Start Your Manufacturing Project
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