As a senior manufacturing engineer at Losier Technology Development, I oversee programs dedicated to Automotive Part Casting for global OEM and Tier-1 customers. This overview presents the five primary casting steps we apply on production launches, outlining how each phase is governed by documented controls, traceable data, and measurable outcomes. Our objective is clear—ensure consistent quality, protect schedule integrity from RFQ to SOP, and deliver competitive total cost through a disciplined, audit-ready process.
Customized die casting is a specialized metal-forming process that uses high-pressure molten metal injection into precision-engineered molds to produce complex components with exceptional dimensional accuracy. Unlike standard die casting, customized die casting focuses on tailoring each part according to the client’s unique design, functionality, and performance requirements. This flexibility allows industries such as automotive, aerospace, electronics, and medical devices to achieve lightweight, durable, and corrosion-resistant parts at scale.
Sand casting is the most commonly used method for copper alloy casting. It uses sand molds as the casting material and pours molten copper alloy into them to produce castings.
Investment casting of precision castings: When wax is used to make the pattern, investment casting is also called "lost wax casting".
Machinery part casting stands as one of the most foundational processes in modern industrial manufacturing, serving as the backbone of everything from automotive engines to heavy-duty construction machinery. This process involves pouring molten metal into a precisely designed mold, allowing it to cool and solidify into the desired shape. The resulting components are durable, heat-resistant, and capable of withstanding extreme mechanical stress.
Custom CNC Machining, short for Computer Numerical Control Machining, is a highly precise and automated manufacturing process used to produce complex parts with tight tolerances. This technology plays a crucial role across multiple industries including aerospace, automotive, medical devices, energy, and electronics. It operates through pre-programmed software and codes that dictate the movement of machinery and cutting tools, ensuring consistency, efficiency, and accuracy even in large-scale production.
