Neway Precision Works Ltd R&D Team

  Metal injection molding (MIM) service  has become attractive for producing complex, net-shape aerospace components with tight tolerances. MIM combines the versatility of plastic injection molding with the whole material properties of sintered metals. Fine metal powder mixed with a polymer binder can be injection molded into various geometries. After binder removal and high-temperature sintering, the final parts retain their molded shape with excellent mechanical properties. Our company specializes in providing full-scale MIM services from design to finished components. With extensive aerospace engineering experience, we offer rapid prototyping of new designs and scalable production of existing parts. Our capabilities include: Complex multi-cavity mold design. Feedstock formulation. Precision high-volume molding. Automated debinding and sintering. Final machining. We work with proven aerospace alloys like titanium, nickel, stainless steel, and cobalt chrome. Contact us today to discus

Metal injection molding (MIM) service  has become attractive for producing complex, net-shape aerospace components with tight tolerances. MIM combines the versatility of plastic injection molding with the whole material properties of sintered metals. Fine metal powder mixed with a polymer binder can be injection molded into various geometries. After binder removal and high-temperature sintering, the final parts retain their molded shape with excellent mechanical properties. Our company specializes in providing full-scale MIM services from design to finished components. With extensive aerospace engineering experience, we offer rapid prototyping of new designs and scalable production of existing parts. Our capabilities include: Complex multi-cavity mold design. Feedstock formulation. Precision high-volume molding. Automated debinding and sintering. Final machining. We work with proven aerospace alloys like titanium, nickel, stainless steel, and cobalt chrome. Contact us today to discuss

  Metal injection molding (MIM) service  has become attractive for producing complex, net-shape aerospace components with tight tolerances. MIM combines the versatility of plastic injection molding with the whole material properties of sintered metals. Fine metal powder mixed with a polymer binder can be injection molded into various geometries. After binder removal and high-temperature sintering, the final parts retain their molded shape with excellent mechanical properties. Our company specializes in providing full-scale MIM services from design to finished components. With extensive aerospace engineering experience, we offer rapid prototyping of new designs and scalable production of existing parts. Our capabilities include: Complex multi-cavity mold design. Feedstock formulation. Precision high-volume molding. Automated debinding and sintering. Final machining. We work with proven aerospace alloys like titanium, nickel, stainless steel, and cobalt chrome. Contact us today to discus

Gravity casting, also known as permanent mold casting, can be ideal for manufacturing metal components for specific applications. This article will examine when gravity casting is the optimal choice over other casting methods or machining processes to meet project requirements. Critical factors like part geometry, production quantities, material options, quality needs, lead time, and cost will be analyzed. What is Gravity Casting? Gravity casting relies on the force of gravity to fill metal molds positioned below a pouring basin. Once the mold cavity is filled, the liquid metal solidifies into the desired shape. The mold remains stationary during the pouring and solidification process with no applied pressure. The critical advantage of gravity casting is its use of reusable metal molds, typically made from cast iron, steel, or aluminum alloys. It enables repeatable production of consistently dimensioned castings with good surface finish at a relatively low cost. Simple castings may onl