MIM
PRODUCT CATALOG
Delivering precision through a 3-stage Metal Injection Molding (MIM) process
Precision metal injection molding where metal powder mixed with binder is injected into a mold to create complex component shapes with tight tolerances.
Debinding removes the binder from the molded “green part” using controlled processes, preparing it for the next stage while maintaining its shape and structure.
Sintering heats the component in a controlled furnace, bonding metal particles to form strong, dense, and high-precision finished parts with exceptional performance.
MIM TECHNOLOGY
Explain Metal Injection Molding as a high-precision manufacturing technology used to produce complex metal components with excellent dimensional accuracy and strong mechanical properties.
From Feedstock to Final Inspection
A meticulous six-stage journey to ensure metallurgical excellence.
Forming the green component by injecting the prepared feedstock into precision-engineered molds under high pressure.
Removing binder material through thermal or solvent processes to prepare the component for metal fusion.
Performing rigorous dimensional verification and structural testing using advanced metrology equipment.
Fine metal powders are blended with polymer binders to create a homogeneous feedstock optimized for injection molding.
The feedstock is injected into precision molds under high pressure to form the “green part” with complex geometry.
Binder material is carefully removed through thermal or solvent processes, maintaining structural integrity.
Parts are heated in a controlled atmosphere to achieve near-full density, strength, and final material properties.
Each component undergoes rigorous dimensional and structural inspection using advanced metrology systems.
WHY CHOOSE US
Innovative and creative solutions exceeding expectations with rigorous ethical standards.
Continuous search for opportunities beyond agreed communications and business objectives.
Unique and tailored solutions for every client's special needs and requirements.
Teamwork based on implementation of progressive communications disciplines.
High-quality services provided by a highly motivated and skilled team.
Strong technical background driving continuous innovation in manufacturing.
High tensile stainless steel with excellent corrosion resistance for durable industrial applications.
Low-alloy steel ensures superior durability and strength for heavy-duty engineering use.
Heat-treated steel provides high fatigue resistance and toughness for demanding environments.
We help businesses improve efficiency with customized solutions.
