Industrial 3D Printing Service: Metal or Plastic 3D Printing

DT's Workers in Front of Our SLM Metal 3D Printers

Les imprimantes 3D industrielles SLM pour le métal chez DT Factory

The High-Precision Industrial SLS 3D Printers in DT Factory

SLM Metal 3D Printing Technology Specifications

SLM (Fusion sélective par laser) Material Properties and Applications

Metal 3D Printing Technology	Material Type	Abbreviation	Material Status	Post-traitement courant	Marge de tolérance	Processing Advantages	Processing Disadvantages	Application Fields	Maximum Build Size
SLM	Alliage d'aluminium	AL	Metal powder	Sandblasting, Anodized Matte Black, Polishing, Electroplating, Passivation, Spray Painting/Powder Coating	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm	Lightweight material, fast heat dissipation, good electrical and thermal conductivity	Support removal is troublesome after printing, rough surface, secondary processing required for high precision requirements	Prototypes, automobile, médical, digital electronics, jouets, équipement mécanique, aérospatiale, etc.	420225260mm
	Acier inoxydable	SS	Metal powder	Sandblasting, Polishing, Electroplating, Passivation, Spray Painting/Powder Coating		Rust-proof, excellent corrosion resistance, ideal for mirror finish effects			420225260mm
	Alliage de titane	TC4	Metal powder	Sandblasting, Polishing, Spray Painting/Powder Coating		High strength with low density, good mechanical properties, toughness and corrosion resistance			150150200mm
	Die Steel	CX	Metal powder	Sandblasting, Heat Treatment		High toughness and good thermal resistance	Rough surface, requires secondary processing	Plastic, die-casting, shoe mold and other mold industries	250250300mm
	Die Steel	1.2709	Metal powder	Sandblasting, Heat Treatment		High toughness and good thermal resistance	Rough surface, requires secondary processing	Plastic, die-casting, shoe mold and other mold industries	250250300mm
	Nickel – based Superalloys	GH4169	Metal powder	Hot isostatic pressing (HIP) , solution treatment and aging, machining		Superior high-temperature strength (>800°C) Excellent oxidation/corrosion resistance Tailorable γ′ precipitation hardening High design freedom for complex geometries	High crack sensitivity, Strict parameter control required, Costly post-processing, High powder cost/reactivity	Aérospatiale, energy, high-temperature corrosion-resistant industrial systems	250250300mm

Metal 3D Printing Technology	SLM
Material Type	Alliage d'aluminium
Abbreviation	AL
Material Status	Metal powder
Post-traitement courant	Sandblasting, Anodized Matte Black, Polishing, Electroplating, Passivation, Spray Painting/Powder Coating
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	Lightweight material, fast heat dissipation, good electrical and thermal conductivity
Processing Disadvantages	Support removal is troublesome after printing, rough surface, secondary processing required for high precision requirements
Application Fields	Prototypes, automobile, médical, digital electronics, jouets, équipement mécanique, aérospatiale, etc.
Maximum Build Size	420225260mm

Metal 3D Printing Technology	SLM
Material Type	Acier inoxydable
Abbreviation	SS
Material Status	Metal powder
Post-traitement courant	Sandblasting, Polishing, Electroplating, Passivation, Spray Painting/Powder Coating
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	Rust-proof, excellent corrosion resistance, ideal for mirror finish effects
Processing Disadvantages	Support removal is troublesome after printing, rough surface, secondary processing required for high precision requirements
Application Fields	Prototypes, automobile, médical, digital electronics, jouets, équipement mécanique, aérospatiale, etc.
Maximum Build Size	420225260mm

Metal 3D Printing Technology	SLM
Material Type	Alliage de titane
Abbreviation	TC4
Material Status	Metal powder
Post-traitement courant	Sandblasting, Polishing, Spray Painting/Powder Coating
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	High strength with low density, good mechanical properties, toughness and corrosion resistance
Processing Disadvantages	Support removal is troublesome after printing, rough surface, secondary processing required for high precision requirements
Application Fields	Prototypes, automobile, médical, digital electronics, jouets, équipement mécanique, aérospatiale, etc.
Maximum Build Size	150150200mm

Metal 3D Printing Technology	SLM
Material Type	Die Steel
Abbreviation	CX
Material Status	Metal powder
Post-traitement courant	Sandblasting, Heat Treatment
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	High toughness and good thermal resistance
Processing Disadvantages	Rough surface, requires secondary processing
Application Fields	Plastic, die-casting, shoe mold and other mold industries
Maximum Build Size	250250300mm

Metal 3D Printing Technology	SLM
Material Type	Die Steel
Abbreviation	1.2709
Material Status	Metal powder
Post-traitement courant	Sandblasting, Heat Treatment
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	High toughness and good thermal resistance
Processing Disadvantages	Rough surface, requires secondary processing
Application Fields	Plastic, die-casting, shoe mold and other mold industries
Maximum Build Size	250250300mm

Metal 3D Printing Technology	SLM
Material Type	Nickel – based Superalloys
Abbreviation	GH4169
Material Status	Metal powder
Post-traitement courant	Hot isostatic pressing (HIP) , solution treatment and aging, machining
Marge de tolérance	Based on 3D drawing assessment, post-printing accuracy for smaller dimensions (within 50mm) is approximately ±0.2mm. Secondary precision machining required for accuracy below ±0.1mm
Processing Advantages	Superior high-temperature strength (>800°C) Excellent oxidation/corrosion resistance Tailorable γ′ precipitation hardening High design freedom for complex geometries
Processing Disadvantages	High crack sensitivity, Strict parameter control required, Costly post-processing, High powder cost/reactivity
Application Fields	Aérospatiale, energy, high-temperature corrosion-resistant industrial systems
Maximum Build Size	250250300mm

Plastic 3D Printing Technologies Comparison

Material Properties and Applications of Various Plastic 3D Printing Methods

3D Printing Technology	Material Category	Material Name	Color Option	Post-Processing	Dimensional Accuracy	Avantages	Limitations	Applications	Max Build Size (mm)
SLA	Photopolymer Resin	ABS-like	White	Sanding, Bead Blasting, Painting, Silkscreen, Vacuum Plating, UV Coating, Laser Engraving	±0.2-0.5mm	Rentable, Fast turnaround, Assembling capability, No size restrictions	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes	Prototypes, Automotive, Medical, Électronique grand public, Toys, Machinery, Aérospatiale	1200×600×400
		ABS-like	Yellow			Rentable, Fast turnaround, Assembling capability, No size restrictions	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
		ABS-like	Green			Rentable, Fast turnaround, Assembling capability, No size restrictions	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
		ABS-like	Black			Rentable, Fast turnaround, Assembling capability, No size restrictions	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
SLA	Photopolymer Resin	PC-like	Transparent	Sanding, Polishing, Bead Blasting, Painting, Silkscreen, Vacuum Plating, Laser Engraving	±0.2-0.5mm	Affordable pricing, Quick cycle time, Assembly possible, Unlimited size capacity	90% transparency max (vs CNC machining), Limited optical clarity	Transparent parts, Lampshades, Display models	600×600×400
SLA	Photopolymer Resin	PC-like	Semi-Transparent		±0.2-0.5mm	Affordable pricing, Quick cycle time, Assembly possible, Unlimited size capacity	90% transparency max (vs CNC machining), Limited optical clarity	Transparent parts, Lampshades, Display models	600×600×400
SLS	Nylon	PA	Black/White	None	±0.3mm	Wear-resistant, High temperature tolerance	Rough surface finish, Not suitable for bonding	Home Appliances, Power Tools, Automotive Components	200×200×100
DLP	Red Wax	–	Red	None	±0.1mm	Haute précision, Fine detail capability	Coût plus élevé, Limited build size	Jewelry, Accessories, Animation Models	200×100×200
FDM	Inkjet Fused Filament	PLA, TPU, PA, carbon fiber, PC, ABS	Multiple colors available	Grinding, peaufinage, sandblasting, spraying, silk – screening, gravure au laser, etc.	±0.05mm	Multiple colors, various materials, coût – effective, no size restrictions	Rough surface	Crafts, lighting fixtures, home furnishings, animation and comics, etc.	10001000500

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	ABS-like
Color Option	White
Post-Processing	Sanding, Bead Blasting, Painting, Silkscreen, Vacuum Plating, UV Coating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Rentable, Fast turnaround, Assembling capability, No size restrictions
Limitations	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
Applications	Prototypes, Automotive, Medical, Électronique grand public, Toys, Machinery, Aérospatiale
Max Build Size (mm)	1200×600×400

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	ABS-like
Color Option	Yellow
Post-Processing	Sanding, Bead Blasting, Painting, Silkscreen, Vacuum Plating, UV Coating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Rentable, Fast turnaround, Assembling capability, No size restrictions
Limitations	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
Applications	Prototypes, Automotive, Medical, Électronique grand public, Toys, Machinery, Aérospatiale
Max Build Size (mm)	1200×600×400

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	ABS-like
Color Option	Green
Post-Processing	Sanding, Bead Blasting, Painting, Silkscreen, Vacuum Plating, UV Coating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Rentable, Fast turnaround, Assembling capability, No size restrictions
Limitations	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
Applications	Prototypes, Automotive, Medical, Électronique grand public, Toys, Machinery, Aérospatiale
Max Build Size (mm)	1200×600×400

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	ABS-like
Color Option	Black
Post-Processing	Sanding, Bead Blasting, Painting, Silkscreen, Vacuum Plating, UV Coating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Rentable, Fast turnaround, Assembling capability, No size restrictions
Limitations	Brittle material, Heat resistance \\\~40°C, Yellowing over time without coating, Limited reuse of threaded holes
Applications	Prototypes, Automotive, Medical, Électronique grand public, Toys, Machinery, Aérospatiale
Max Build Size (mm)	1200×600×400

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	PC-like
Color Option	Transparent
Post-Processing	Sanding, Polishing, Bead Blasting, Painting, Silkscreen, Vacuum Plating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Affordable pricing, Quick cycle time, Assembly possible, Unlimited size capacity
Limitations	90% transparency max (vs CNC machining), Limited optical clarity
Applications	Transparent parts, Lampshades, Display models
Max Build Size (mm)	600×600×400

3D Printing Technology	SLA
Material Category	Photopolymer Resin
Material Name	PC-like
Color Option	Semi-Transparent
Post-Processing	Sanding, Polishing, Bead Blasting, Painting, Silkscreen, Vacuum Plating, Laser Engraving
Dimensional Accuracy	±0.2-0.5mm
Avantages	Affordable pricing, Quick cycle time, Assembly possible, Unlimited size capacity
Limitations	90% transparency max (vs CNC machining), Limited optical clarity
Applications	Transparent parts, Lampshades, Display models
Max Build Size (mm)	600×600×400

3D Printing Technology	SLS
Material Category	Nylon
Material Name	PA
Color Option	Black/White
Post-Processing	None
Dimensional Accuracy	±0.3mm
Avantages	Wear-resistant, High temperature tolerance
Limitations	Rough surface finish, Not suitable for bonding
Applications	Home Appliances, Power Tools, Automotive Components
Max Build Size (mm)	200×200×100

3D Printing Technology	DLP
Material Category	Red Wax
Material Name	–
Color Option	Red
Post-Processing	None
Dimensional Accuracy	±0.1mm
Avantages	Haute précision, Fine detail capability
Limitations	Coût plus élevé, Limited build size
Applications	Jewelry, Accessories, Animation Models
Max Build Size (mm)	200×100×200

3D Printing Technology	FDM
Material Category	Inkjet Fused Filament
Material Name	PLA, TPU, PA, carbon fiber, PC, ABS
Color Option	Multiple colors available
Post-Processing	Grinding, peaufinage, sandblasting, spraying, silk – screening, gravure au laser, etc.
Dimensional Accuracy	±0.05mm
Avantages	Multiple colors, various materials, coût – effective, no size restrictions
Limitations	Rough surface
Applications	Crafts, lighting fixtures, home furnishings, animation and comics, etc.
Max Build Size (mm)	10001000500