猛料原创

Create Precision Magnesium Parts with Thixomolding

Thixomolding鈥攁lso known as magnesium injection molding or MAG鈥攊s a single-step, semi-solid molding process in which chips of magnesium alloy are fed into a heated screw and barrel, then thermally and mechanically processed into a semi-solid state and injected directly into a tool cavity. This versatile injection molding process uses magnesium alloys as the raw material to create parts with complex geometries鈥攎aking MAG an increasingly popular option for key industries including medical components, electronics, automotive, defense, consumer products, sports equipment, handheld devices and more.

猛料原创 provides expert support with specialized injection molding techniques like thixomolding, which accommodates large production volumes and minimizes secondary operations such as machining. Molded parts can then be conversion-coated and painted to meet your finished requirements. Thixomolding allows you to cost-effectively manufacture customized components and complex geometries with:

  • High strength-to-weight ratio
  • 75% lighter than steel
  • 33% lighter than aluminum
  • Strength and stiffness 2 times greater than 30% glass-filled plastics
  • Good heat transfer characteristics (less than Al but better than plastics)
  • Inherent EMI/RFI properties
  • Non-magnetic properties
  • Easier recyclability than plastic
  • Excellent damping capacity
  • Good corrosion control via conversion coatings and understanding of the application
  • First priority: galvanic corrosion protection
  • Easy machinability

Using design for manufacturing (DfM) best practices, we provide gate and runner development as well as moldflow analysis to optimize the quality of your final part design. Transition seamlessly from concept through production with clear communication and step-by-step support. Our quality-focused metal injection molding capabilities include:听

  • Design assistance prior to project award
  • Complete DfM review upon project award
  • Detailed customer report generation
  • Gating development, venting development and moldflow analysis upon design finalization
  • Optimization of critical design factors prior to mold design