SLA is a rapid prototyping process that uses a laser beam to scan liquid photosensitive resin point by point to solidify it. It is the earliest rapid prototyping technology and has high maturity, fast processing speed, short product production cycle, high molding accuracy, and can produce highly restored product samples.

Material Type

Photosensitive polymer materials, including 4600, 8200, 8228 and other resin materials, have the characteristics of fast curing speed, low viscosity and good mechanical properties.

Post-processing options

1. Spray paint 2. Electroplating 3. Silk screen printing 4. Braces 5. Copper nuts

Application

Applicable to aerospace, automotive industry, medical equipment, consumer electronics, home appliances and other industries.

SLS stands for Selective Laser Sintering, and it is a selective laser sintering technology that uses laser to heat and melt polymer material particles, fuse and bond them, and stack them layer by layer to obtain 3D printed parts that are strong, durable, high-quality, clear in details, and powerful in functionality.

Material Type

Available materials include polymer, metal, ceramic, gypsum, nylon and other powder materials, including 7000, 7100, P3600, P9000 and other nylon materials, with high precision and high plasticity.

Post-processing options

1. Polishing 2. Braces 3. Copper nuts

Application

Suitable for industries such as aerospace, automotive, and industrial that require strong yet lightweight functional parts.

MJF (Multi Jet Fusion) technology is a new 3D printing technology launched by HP. It has fast printing speed and also has precision and strength. It is ideal for complex assemblies, housings, packages, and connectors.

Material Type

PA12, PA11, PA+GB (glass beads), TPU and PP materials with high precision and good toughness

Post-processing options

1. Polishing 2. Braces 3. Copper nuts

Application

Suitable for product and structure verification in industries such as automobile industry, household appliances, mechanical equipment, and handicrafts.

SLM is a technology that directly forms metal parts by melting metal powder through laser. It has good mechanical properties, good deformation control, high precision and fine contour, making it an effective solution for the manufacture of complex and difficult metal structures.

Material Type

Printing materials include cobalt-based alloys, stainless steel, tool steel, mold steel, nickel-based alloys, titanium and titanium alloys, and various aluminum alloys.

Post-processing options

1. Tapping 2. Heat treatment 3. Electrophoresis 4. Polishing 5. Grinding 6. Electroplating

Application

Applicable to aerospace, communications, medical, electromechanical industrial parts, building structure design, auto parts, consumer electronics and other industries.

FDM is a fused deposition modeling process that does not rely on laser as a molding energy source, but heats and melts various filaments (such as engineering plastics ABS, ASA, etc.) and then deposits them for molding. It has higher stability and reliability.

Material Type

Printing materials include ABS, ASA, PEI 9085, PEI 1010, nylon carbon fiber, etc.

Post-processing options

Polishing 2. Braces 3. Copper nuts

Application

Suitable for industries such as automotive industry, aerospace, health care, consumer sporting goods, medical and advanced food processing

DLP is a surface forming technology that uses tiny high-precision pixels to solidify photosensitive polymer liquid layer by layer for imaging. It has the advantages of ultra-high precision, clear details, smooth surface, and tiny size manufacturing. It can effectively solve the processing and manufacturing of precision small products and complex devices.

Material Type

Including various resin materials such as Micronano ST resin, Micronano HE200 resin, Micronano HT210 resin, Micronano BIO resin, etc

Post-processing options

1. Spray paint 2. Electroplating 3. Braces 4. Copper nuts

Application

It has advantages in molding accuracy and speed, and is suitable for the production of fine and complex parts in industries such as connectors, biomedicine, microelectronics, and microfluidics.

LCD light-curing printing is a type of surface projection that uses ultraviolet light to cure resin. The light source is emitted by an ultraviolet lamp, and then the LCD screen “cuts” the light source of each layer into shape, instantly curing each layer of resin. The printing speed and accuracy are comparable to DLP printing.

Material Type

High-performance resins, including Future ESD resin for anti-static properties, Future Flame Retardant resin with flame-retardant properties, and Future 8600Pro resin for excellent detail capture.

Post-processing options

LCD post-processing chain: Clean → Cure → Finish (mechanical/chemical)

Application

Electronic component manufacturing, high temperature and heat resistance requirements industrial scenarios.