ALLJACK provides the full-range of services including design, testing, project control, and precision machining
About this Solution:
ALLJACK has the experience, professional expertise and technological capability to meet the tooling & Injection molding demands of your project. Our one-stop service will significantly reduce your lead time and cost, giving you a completed project in less time, for less expense
TOOLING and INJECTION MOLDING SERVICE:
OEM Machining of Hand-Made Precision Parts in Limited Quantities
During vacuum casting, polyurethane material is poured into a vacuum mold to create exact replicas of an original model. Metal and plastic materials can both be used in vacuum casting. Vacuum casting is extensively used in mass production for reducing cost and lead time. Vacuum casting is ideal for customers seeking unique finishes, textures, materials, and other features in their prototypes.
Injection molding uses thermoplastic and thermosetting materials, injecting them into a mold to produce solid parts. Injection molding is widely applicable, used to create small components and entire vehicle or aircraft frames.
Silicone Rubber Molding-
Liquid material is poured into a mold, then solidified using temperature and pressure to create custom silicone OEM parts for the automotive, medical, and food industries. Silcone rubber molding is typically used for the mass production of seals, gaskets, valves, and cables. Parts made using silicone rubber molding have excellent thermal, chemical, and electrical resistance. Silicone rubber molding is ideal for parts that have to withstand extreme temperatures and sterilization.
Die casting uses high levels of pressure to force metal into a mold cavity created using steel dies. The dies are made from hardened steel machined into a shape, similar to a polymer injection mold. Using non-ferrous metals such as Zinc, Copper, Aluminum, Magnesium, Lead, Pewter, and other alloys, die casting enables increased production, dimensional accuracy and consistency, small-scale processing, excellent surface finish, high-strength, and the casting of thin-walled parts.
Step 1. Selection of Raw Materials
Step 2. Manufacturing
Step 3. Post-Processing
Step 4. Inspection and QC
Step 5.Packing and Shipping
Professional Finishing Lab:
This Solution is most applicable for the following stages and categories:
- Proof of concept
- Working prototype
- Enhancing industrial design
- Improving electronic board
- Design for manufacturability
- Audio & Video Devices
- Tech Accessories
- Auto Applications
- Health Devices
- Science Gadgets
- Other Technologies