Sisma MYSINT100 3D Laser On-Metal Printing Technology The Sisma MYSINT100 has revolutionized the world of industrial manufacturing with its pioneering 3D Laser on-metal printing technology. By using Laser Metal Fusion to generate metal prototypes from a variety of powders including steel, gold, silver, bronze, and chrome cobalt, the MYSINT100 offers a new approach to metallurgical manufacturing that can help businesses gain a competitive advantage. One of the key benefits of the Sisma MYSINT100 is its compatibility with most 3D image formats, adding versatility to its application. All that is required is an STL 3D file, metal powder, and an operator to begin the process. The laser selectively melts the fine powder layer by layer to create a perfectly shaped workpiece that can be used for limitless applications. Your investment in Sisma MYSINT100 will allow you to have a user-friendly graphical user interference and ergonomic design for any imaginable 3D metal printing application. Currently, these machines are being used for medical device fabrication, crafting aircraft parts, medical-implant parts, smaller mechatronics, security locking systems, and jewelry. Here are some features of Sisma Laser Metal Fusion MYSINT100: Reduces production times and manpower, flexibility in the production with no minimum batch production. Precision result for jewelry and medical workpiece. Depending on the 3D scanner machine and 3D design, MYSINT100 is capable of printing the exact workpiece from any metal powder or alloy, even enabling the creation of a workpiece with moving parts and mechanisms in an instant. Due to its trabecular structure, the workpiece created with Sisma MYSINT100 is lightweight and exemplary robust even though using less precious metal. Reuse of residual metal powder which remains unused during the Laser Metal Fusion process can be recovered for future use. Overcomes geographical limits as the CAD file can be drafted anywhere in the world simply by mailing it or remotely operating the machines. No mold/casting maintenance, and no tools to replace compared with conventional techniques. The LMF process does not involve any tools subject to wear and replacement, thus adding efficiency to energy consumption, storage cost, and low environmental impact.

Sisma MYSINT100 3D Laser On-Metal Printing Technology

The Sisma MYSINT100 has revolutionized the world of industrial manufacturing with its pioneering 3D Laser on-metal printing technology. By using Laser Metal Fusion to generate metal prototypes from a variety of powders including steel, gold, silver, bronze, and chrome cobalt, the MYSINT100 offers a new approach to metallurgical manufacturing that can help businesses gain a competitive advantage.

One of the key benefits of the Sisma MYSINT100 is its compatibility with most 3D image formats, adding versatility to its application. All that is required is an STL 3D file, metal powder, and an operator to begin the process. The laser selectively melts the fine powder layer by layer to create a perfectly shaped workpiece that can be used for limitless applications.

Your investment in Sisma MYSINT100 will allow you to have a user-friendly graphical user interference and ergonomic design for any imaginable 3D metal printing application. Currently, these machines are being used for medical device fabrication, crafting aircraft parts, medical-implant parts, smaller mechatronics, security locking systems, and jewelry.

Here are some features of Sisma Laser Metal Fusion MYSINT100:

• Reduces production times and manpower, flexibility in the production with no minimum batch production.
• Precision result for jewelry and medical workpiece.
• Depending on the 3D scanner machine and 3D design, MYSINT100 is capable of printing the exact workpiece from any metal powder or alloy, even enabling the creation of a workpiece with moving parts and mechanisms in an instant.
• Due to its trabecular structure, the workpiece created with Sisma MYSINT100 is lightweight and exemplary robust even though using less precious metal.
• Reuse of residual metal powder which remains unused during the Laser Metal Fusion process can be recovered for future use.
• Overcomes geographical limits as the CAD file can be drafted anywhere in the world simply by mailing it or remotely operating the machines.
• No mold/casting maintenance, and no tools to replace compared with conventional techniques. The LMF process does not involve any tools subject to wear and replacement, thus adding efficiency to energy consumption, storage cost, and low environmental impact.