LAM 3D PRINTERS (8 products)

Price

0.00 € - 6,500.00 €

Printer Features

Print properties

Maximum print speed

40 mm/s - 500 mm/s

XY positioning resolution

0 μm - 50 μm

Z positioning resolution

0 μm - 30 μm

Maximum extrusion temperature

75 ºC - 450 ºC

Maximum base temperature

15 ºC - 210 ºC

Maximum chamber temperature

15 ºC - 90 ºC

Software and connectivity

LAM

Liquid additive manufacturing (LAM) works with liquid or high-viscosity materials, such as silicone. This technology allows intricate parts with diverse properties to be manufactured quickly and accurately.

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What is LAM?

Liquid Additive Manufacturing (LAM) technology heralds a groundbreaking era in additive manufacturing, providing a distinctive method for fabricating components with extraordinary precision and versatility, particularly focusing on silicone and edible pastes. This innovative process involves the meticulous deposition of liquid materials, which are subsequently solidified through curing or cross-linking mechanisms, layer by layer. LAM printers empower the creation of intricate designs and complex geometries with minimal material wastage, rendering them exceptionally suited for a myriad of applications across industries such as healthcare, robotics, industrial manufacturing, consumer goods, culinary arts, catering, etc.

Materials

In the realm of LAM 3D printing, silicone and edible pastes serve as the primary materials, each offering distinct advantages and tailored properties. Silicone is prized for its flexibility, durability, and biocompatibility, making it indispensable for applications in medical devices, prosthetics, seals robotics and more. Edible pastes, on the other hand, unlock a realm of possibilities in the culinary sphere, allowing chefs and food enthusiasts to craft intricate confections, decorative toppings, and personalized treats with unparalleled creativity.

Considerations

When assessing an LAM 3D printing system, several critical considerations must be addressed to ensure optimal results. The selection of materials, be it silicone or edible pastes, hinges on application requirements and desired properties such as flexibility, taste, and texture. Additionally, factors like printer reliability, sanitation standards, and post-processing capabilities play pivotal roles in determining the suitability of an LAM system for specific projects. Despite its relative novelty compared to traditional manufacturing methods, LAM technology holds immense promise as a transformative force in healthcare, robotics, culinary industries, and more, offering unprecedented opportunities for innovation and customization. As LAM technology advances and becomes more accessible, it is poised to revolutionize production processes and redefine the boundaries of creativity across various sectors.