SLA (stereolithography)
SLA is a type of 3D printing process that uses a vat of liquid photopolymer resin and a UV laser to build objects layer by layer. The UV laser solidifies the resin in the desired shape, creating highly detailed and accurate prints with smooth surface finishes.
SLS (Selective Laser Sintering)/DLP (Digital Light Processing)
SLS and DLP are similar processes that use a laser or projector to selectively solidify a powdered material, such as nylon or resin, layer by layer. The excess powder acts as a support structure during printing, making it ideal for complex geometries and intricate designs. SLS uses a laser to selectively sinter powdered materials, such as nylon or other engineering-grade plastics, layer by layer. This results in parts that are durable, heat-resistant, and have a high level of mechanical strength. SLS is commonly used in industries such as aerospace, automotive, and medical for producing functional prototypes and end-use parts that require high physical strength and robustness.
FDM (Fused Deposition Modeling)/LCD (Liquid Crystal Display)
FDM and LCD are popular 3D printing processes that use thermoplastic filaments or liquid resin, respectively, to create objects layer by layer. In FDM, the filament is heated and extruded through a nozzle, while in LCD, the liquid resin is cured using UV light. Both processes are widely used for rapid prototyping and producing functional parts.
DMLS
Direct Metal Laser Sintering (DMLS): In DMLS, a high-powered laser selectively fuses metal powder particles together, layer by layer, to create a solid 3D object. The process is similar to Selective Laser Sintering (SLS) for plastics but specifically designed for metal materials. DMLS can produce complex geometries and parts with high strength and durability, making it suitable for aerospace, automotive, and medical applications.
SLM
Selective Laser Melting (SLM): Selective Laser Melting is another metal 3D printing process that uses a laser to fully melt metal powder particles, creating a dense and fully consolidated part. SLM offers high precision and the ability to produce parts with excellent mechanical properties, making it suitable for producing functional metal parts for various industries.
Both DMLS and SLM are commonly used in industries where high-strength metal parts are required, such as aerospace, automotive, and medical. These processes offer the ability to produce complex geometries and parts with excellent mechanical properties and performance.
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