Dual Laser Slm 3D Printing Equipment Combined with Precision Scanning Galvanometer and Ipg Fiber Laser Machine for Manufacturing Dental Bridges

Selective Laser Melting (SLM) is an advanced additive manufacturing technology that uses a high-powered laser to selectively melt metal powder layers, building complex metal parts layer by layer. This technology is capable of producing parts with high precision and intricate geometries, making it an essential tool in industries such as aerospace, automotive, medical, and engineering. The ability to create complex structures with fine detail allows for innovation and customization that traditional manufacturing methods often cannot achieve.

SLM works with a variety of metal materials, including titanium, aluminum, stainless steel, and nickel alloys. The parts produced through SLM have excellent mechanical properties and high density, ensuring they meet the stringent requirements of critical applications. This versatility in materials and the high quality of the resulting parts make SLM a preferred method for manufacturing high-performance components.

Compared to traditional manufacturing methods, SLM significantly reduces material waste and shortens production cycles, offering greater design freedom. The process is ideal for rapid prototyping and small batch production, allowing for quicker iterations and time-to-market. With its efficiency, precision, and ability to produce complex designs, SLM represents a significant advancement in manufacturing technology, enabling industries to achieve new levels of performance and innovation.

SLM provides unparalleled design freedom, capable of producing complex shapes and internal structures that are difficult to create in other manufacturing processes. Therefore, SLM technology is widely used, and common application areas are not limited to but include:

Aerospace
 

In the aerospace industry, SLM technology is widely used to manufacture lightweight and complex components such as turbine blades, structural brackets, and aerospace engine parts.

These components require high strength, heat resistance, and precise geometries. SLM can meet these stringent requirements while significantly reducing the weight of the parts, thereby improving fuel efficiency and overall performance.

Automotive
 

In the automotive sector, SLM is employed to produce high-performance engine parts, customized components, and prototypes. The technology enables the rapid manufacturing of complex geometries with high material efficiency, minimizing waste.

This helps enhance vehicle performance, reduce fuel consumption, and accelerate the development of new vehicles and technologies.

Medical
 

In the medical field, SLM is used to create customized implants, prosthetics, and surgical tools. Due to the unique anatomical structure of each patient, the high precision and customized features of SLM allow for the production of medical devices that fully meet the individual needs of patients, thereby improving treatment effectiveness and patient comfort. One common method is for dentists to use SLM equipment to create dentures for patients.

Engineering and Manufacturing
 

In the engineering and manufacturing sectors, SLM technology is utilized to produce specialized tools, molds, and functional prototypes.

These parts require high strength and precise dimensions, and SLM can quickly produce components that meet these requirements. This aids companies in accelerating product development cycles, enhancing production efficiency, and realizing complex designs.

Advantages of Guosheng Laser SLM(Selective Laser Melting) Machines:  

1. High Precision and Accuracy

SLM machines can produce parts with extremely high precision and intricate geometries. This capability allows for the creation of complex components that are often impossible to manufacture using traditional methods. The precision also ensures minimal post-processing and finishing work.

2. Material Efficiency

SLM uses only the necessary amount of material to create a part, significantly reducing waste compared to traditional subtractive manufacturing methods. The unused metal powder can often be recycled and reused, further enhancing material efficiency.

3. Design Freedom

SLM provides unparalleled design flexibility, enabling the production of complex shapes, internal structures, and geometries that would be difficult or impossible to achieve with conventional manufacturing techniques. This freedom allows for more innovative and optimized designs.

4. Strong Mechanical Properties

Parts produced by SLM typically have high density and excellent mechanical properties. The resulting components can withstand high stress, heat, and other demanding conditions, making them suitable for critical applications in industries like aerospace, automotive, and medical.

5. Customization

SLM machines excel at producing highly customized and individualized parts. This is particularly beneficial in industries like medical and dental, where patient-specific implants and prosthetics can be created to match individual anatomical requirements.

6. Rapid Prototyping and Production

SLM allows for quick turnaround times from design to finished product. This speed is valuable for rapid prototyping, enabling faster iterations and product development. It also supports small batch production, making it cost-effective for producing limited quantities of specialized parts.

7. Reduced Lead Times

The ability to produce parts directly from digital models without the need for molds or tooling significantly reduces lead times. This is advantageous in industries where time-to-market is critical, such as consumer electronics and high-tech sectors.

8. Versatility in Materials

SLM can work with a wide range of metal materials, including titanium, aluminum, stainless steel, cobalt-chrome, and nickel alloys. This versatility makes it suitable for various applications across different industries.

9. Improved Performance and Lightweighting

By allowing for the design and manufacture of parts with complex internal structures, SLM can produce components that are both lightweight and high-performing. This is particularly important in aerospace and automotive applications where weight reduction is crucial for efficiency.

10. Sustainability

The efficiency and reduced waste of SLM processes contribute to more sustainable manufacturing practices. Additionally, the ability to create parts on-demand reduces the need for large inventories and associated storage costs, further supporting sustainable production strategies.

Item	Specification
Model	GS-M400
Laser Power	500W x 2
Laser Type	GS-MAX Fiber Laser
Forming Size (W x D x H)	260mm x 400mm x 300mm
Layer Thickness	30-100 um
Power Supply	110-240 VAC, 50/60Hz, 8KW
Supporting Materials	Stainless steel, titanium alloy, cobalt chromium alloy, high temperature alloy, aluminum alloy, copper alloy, mold steel, pure titanium, etc
Machine Size (W x D x H)	1172mm x 1840mm x 2270mm

1. The main components of the equipment are guaranteedfor 1 year. If there are quality problems with the systemcomponents within the warranty period, the supplier willarrange engineers to guide the debugging.
2. During the equipment warranty period, the supplier is responsible for free replacement of parts for any damage or damage caused by the quality of the equipment itself. Optical fibers, lenses, gas nozzles, etc., and those that are responsible for user violations are excluded.
3. If there is any questions during the operation process, you can contact the our engineer for guidance.

 

Certification Details:

• Certificate Number: M.2024.206.C96917
• Certification Body: UDEM International Certification
• Initial Assessment Date: February 23, 2024
• Auditing Training Centre Industry Registration Date: February 26, 2024
• Validity Period Until: February 25, 2029

Relevant Directives and Standards:

• Machinery Directive: 2006/42/EC
• Electromagnetic Compatibility Directive: 2014/30/EU
• Related Standards: EN ISO 12100:2010; EN 60204-1:2018; EN IEC 61000-6-2:2019; EN IEC 61000-6-4:2019; EN ISO 11553-1:2020+A1:2020; EN 60825-1:2014+AC:2017+A1:2021+A1:2021/AC:2022

Company Information:

• Company Name: Shaanxi Guosheng Laser Technology Co., Ltd.
• Address: Building B5, B6, High-tech Intelligent Manufacturing Industry Incubation Center, High-tech Industrial Development Zone, Xianyang City, Shaanxi Province, China

Our technical files have been inspected, and the audit has been successfully completed. Our products comply with the following EU directives and standards, ensuring the safety and reliability of our products.

Certificate Verification: You can verify the validity of the certificate by visiting UDEM offical website. In accordance with the EU declaration, we commit to maintaining product quality and safety standards.

Ensuring the safety and integrity of laser cladding equipment during export is crucial. Here's a detailed description of the packaging and shipping process for exporting laser cladding equipment:

Packaging Requirements:

1. Protective Packaging:

   • Use high-strength wooden crates to ensure the equipment is not damaged by physical impact and vibrations during transportation.
   • The wooden crates should comply with international standards and be fumigated to meet the quarantine requirements of the importing country.

2. Moisture and Dust Protection:

   • Wrap the equipment with a moisture-proof film to prevent moisture damage during transportation.
   • Add dust-proof fabric inside the crate to protect the surface of the equipment from dust and debris.

3. Securing Devices:

   • Use foam, bubble wrap, and shock-absorbing materials to firmly secure the equipment inside the wooden crate, preventing movement and shaking during transportation.
   • Ensure that critical components, such as the laser source, lenses, and optical fibers, have specialized fixation and protection.

4. Labels and Markings:

   • Clearly label the outer packaging with the equipment model, weight, dimensions, and handling instructions.
   • Attach warning labels such as "Fragile," "Keep Dry," and "This Side Up" to alert handlers to take proper precautions.

Shipping Arrangements:

1. Choosing a Reliable Logistics Company:

   • Select a logistics company with international shipping experience to ensure the safe and timely delivery of the equipment.
   • Ensure the logistics company is experienced in handling large machinery and provides professional transportation services.

2. Mode of Transportation:

   • Choose the appropriate mode of transportation based on the destination distance and customer requirements, such as sea freight, air freight, or rail transport.
   • For long-distance transportation, sea freight is recommended, and booking the shipping space in advance is essential to ensure timely delivery.

3. Insurance:

   • Purchase full transport insurance for the equipment to cover potential accidents during transportation.
   • Ensure the insurance policy covers risks such as damage, loss, and delay of the equipment.

4. Customs Procedures:

   • Prepare all necessary export documents and certificates in advance, including invoices, packing lists, certificates of origin, and quality inspection certificates.
   • Work with customs brokers to ensure smooth customs clearance procedures, avoiding delays due to incomplete documentation or improper handling.

5. Tracking and Feedback:

   • Track the shipment status in real-time during transportation to ensure it reaches the destination on schedule.
   • Maintain communication with the customer, providing timely updates on the transportation progress and offering installation and commissioning support upon arrival.

By meticulously packaging and carefully planning the shipping process, the laser cladding equipment can be safely and intactly delivered to the customer, ensuring a satisfactory user experience.