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Sand 3d printer manufacturers

I have found results from1000+products and300+suppliers aboutSand 3d printer

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KOCEL AJS 2500A High Speed & Quality Sand 3D Printer for Rapid Prototyping

KOCEL AJS 2500A High Speed & Quality Sand 3D Printer for Rapid Prototyping

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
KOCEL AJS 2500 3DP Printing Technology High-Efficiency Sand Mold 3D Printer

KOCEL AJS 2500 3DP Printing Technology High-Efficiency Sand Mold 3D Printer

US$800,000.00-1,200,000.00
1 Piece(MOQ)
AJS500 Sand 3D Printer for Educational Institutions

AJS500 Sand 3D Printer for Educational Institutions

Negotiable
1 Piece(MOQ)
Sample Available
furan resin sand mold sand core 3D printer for castings

furan resin sand mold sand core 3D printer for castings

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
High-Performance Kocel AJS2500 Sand 3D Printer for Castings

High-Performance Kocel AJS2500 Sand 3D Printer for Castings

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1800 Industrial Sand 3D Printer for Seamless Mold Production

Kocel AJS1800 Industrial Sand 3D Printer for Seamless Mold Production

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
Sand Core Printing High Precision High Resolution AJS2500 3D Printer

Sand Core Printing High Precision High Resolution AJS2500 3D Printer

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1800 sand core sand mold double jobbox binder jetting 3D printer

Kocel AJS1800 sand core sand mold double jobbox binder jetting 3D printer

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1800 Dual Jobbox Sand 3D Printer for Robust Foundry Applications

Kocel AJS1800 Dual Jobbox Sand 3D Printer for Robust Foundry Applications

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 Sand Mold Sand Core High-Speed Production 3D Printer

Kocel AJS2500 Sand Mold Sand Core High-Speed Production 3D Printer

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1250/1800 3d printer for printing sand mold sand core

Kocel AJS1250/1800 3d printer for printing sand mold sand core

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 Binder Jetting Sand Mold Sand Core 3D Printer

Kocel AJS2500 Binder Jetting Sand Mold Sand Core 3D Printer

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 Industrial Sand 3D Printer for Production Lines

Kocel AJS2500 Industrial Sand 3D Printer for Production Lines

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Additive Manufacturing Sand Core Printing 3D printer rapid prototyping

Additive Manufacturing Sand Core Printing 3D printer rapid prototyping

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
sand castings making Kocel AJS2500 3d printer

sand castings making Kocel AJS2500 3d printer

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
high efficiency advanced technology Kocel industrial 3D printer for sand core sand mold

high efficiency advanced technology Kocel industrial 3D printer for sand core sand mold

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
sand mold sand core making 3d printer for foundry castings

sand mold sand core making 3d printer for foundry castings

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 Industrial 3D Printer for Complex Metal and Sand Parts

Kocel AJS2500 Industrial 3D Printer for Complex Metal and Sand Parts

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 3D Printer for Durable and High-Accuracy Sand Casting Applications

Kocel AJS2500 3D Printer for Durable and High-Accuracy Sand Casting Applications

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
AJS2500 Kocel big size 3d printer for sand mold sand cores

AJS2500 Kocel big size 3d printer for sand mold sand cores

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Binder Jetting Industrial 3D Printer for Sand Casting Sand Mold

Binder Jetting Industrial 3D Printer for Sand Casting Sand Mold

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1800 double jobbox 400 DPI industrial 3D sand printer

Kocel AJS1800 double jobbox 400 DPI industrial 3D sand printer

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
Additive Manufacturing 3D sand printer AJS2500 for casting making

Additive Manufacturing 3D sand printer AJS2500 for casting making

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
binder jetting industrial 3D sand printer for foundries

binder jetting industrial 3D sand printer for foundries

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS2500 3D Sand Printer for High-Precision Foundry Work

Kocel AJS2500 3D Sand Printer for High-Precision Foundry Work

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel AJS1800 High-Capacity 3D Sand Printer for Precision Casting

Kocel AJS1800 High-Capacity 3D Sand Printer for Precision Casting

US$400,000.00-700,000.00
1 Piece(MOQ)
Sample Available
AJS2500 Kocel 3D Sand Printer for High-Volume Castings

AJS2500 Kocel 3D Sand Printer for High-Volume Castings

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Kocel Industrial 3D Sand Printer for castings AJS2500

Kocel Industrial 3D Sand Printer for castings AJS2500

US$800,000.00-1,200,000.00
1 Piece(MOQ)
Sample Available
Industrial 3D sand printer sand casting by useing binder jetting technology

Industrial 3D sand printer sand casting by useing binder jetting technology

Negotiable
1 Piece(MOQ)
Sample Available

Sourcing guidance for Sand 3D Printer

What are the key technical specifications to consider when selecting a Sand 3D Printer for industrial casting?

When evaluating a Sand 3D printer, the build volume is paramount; ensure it accommodates your largest mold requirements to avoid assembly seams. Look for layer thickness precision (typically 200-500 microns) and print speed (measured in liters per hour) to ensure production efficiency. Additionally, verify the compatibility with different sand types (e.g., silica sand, ceramsite sand) and the binder system used (Furan, Phenolic, or Inorganic), as these directly impact the gas evolution and surface finish of the final metal casting.

How do I evaluate the structural and functional reliability of the printer?

Prioritize machines with high-precision print heads (such as piezoelectric inkjet technology) that offer a long service life and easy maintenance. The recoating system should be robust to ensure uniform sand distribution, which prevents defects in the mold. Check for automated sand supply and recycling systems to minimize manual labor and material waste. It is essential to confirm that the equipment meets CE or UL safety standards for industrial machinery.

What are the typical usage scenarios for Sand 3D Printers in the B2B sector?

These printers are primarily used in foundries for rapid prototyping and small-batch production of complex metal parts without the need for expensive physical patterns. Common industries include aerospace, automotive (engine blocks and cylinder heads), and heavy machinery. They are also ideal for artistic sculptures and architectural restoration where intricate geometries are required that traditional molding cannot achieve.

How can I ensure the economic feasibility of integrating a Sand 3D Printer into my workflow?

Perform a Total Cost of Ownership (TCO) analysis, including the cost of the machine, specialized binders, and raw sand. Compare this against the savings from eliminating pattern storage and maintenance costs. Many top-tier suppliers on Made-in-China.com offer modular designs that allow for scalability, enabling you to start with a single unit and expand as demand grows. Also, consider the reduction in lead time from weeks to days as a key competitive advantage.

Cross-Border Procurement Risks and Strategies for Sand 3D Printers

What are the primary risks when importing heavy industrial 3D printing equipment?

The main risks include damage during maritime transit and non-compliance with local electrical standards. To mitigate this, insist on vacuum-sealed anti-rust packaging and reinforced wooden crate shielding. Ensure the supplier provides a pre-shipment inspection (PSI) report and confirms the voltage/frequency (e.g., 380V/50Hz) matches your facility's infrastructure.

How should I negotiate with suppliers on Made-in-China.com for the best terms?

Focus on after-sales service packages rather than just the sticker price. Negotiate for on-site installation, operator training, and a 2-year warranty period. Request a spare parts kit (including extra print heads and filters) to be included in the initial purchase. For high-value transactions, use secured payment methods and define clear milestone-based payments (e.g., 30% deposit, 60% after FAT/Factory Acceptance Test, 10% after installation).

What logistics and customs considerations are unique to this product?

Sand 3D printers are classified under HS Code 8485.10 (for additive manufacturing). Verify if your country imposes anti-dumping duties or specific environmental certifications for industrial binders (which may be classified as hazardous chemicals). Work with a freight forwarder experienced in OOG (Out of Gauge) cargo if the machine exceeds standard container dimensions, and always opt for CIF terms with comprehensive insurance coverage.

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