SLA Technology
Precision Detailed Production
SLA (Stereolithography) is one of the leading 3D printing technologies, ideal for many applications requiring high precision and detailed production. At MARM Engineering, we harness the power and potential of SLA technology for you.
What is SLA Technology?
SLA works by adding resin in layers to the surface of a resin pool focused by a laser. As the laser solidifies the resin, each layer is merged with the previous one, ultimately creating the desired 3D print. This technology is ideal for the production of highly complex and precise parts.
Advantages of SLA Technology
SLA Material List
A high-resolution resin used for prototyping in parts that do not require strength.
It has high hardness and toughness, as well as tensile and bending strength.
Extremely strong, with high impact resistance and resistance to cracks and fractures during bending.
A transparent resin with similar properties to Basic resin.
It has high hardness and high temperature resistance.
It has high resolution and low elongation.
High temperature and chemical resistance, low water absorption.
It has high strength, toughness, and impact resistance.
A well-balanced multipurpose material. It is the most cost-effective among engineering resins.
It has very low hardness (Shore 40A), a soft-textured flexible resin.
It has low hardness (Shore 60A).
It has high hardness (Shore 90A). It has superior strength, resilience, and tear resistance.
SLA (Stereolithography) technology is a 3D printing method that creates 3D objects by curing photopolymer resin layer by layer with a laser. SLA 3D printers have a wide range of applications across various industries, particularly in projects that require high precision and detail. The possibilities with this technology are generally as follows:
- Precision Prototyping: SLA 3D printers are an excellent choice for producing prototypes with complex and fine details. This allows product designs to be meticulously tested and refined.
- Small Part Production: Ideal for the production of small-scale parts that require high precision and surface quality, particularly used in medical and engineering applications.
- Education and Research: SLA 3D printers are widely used in educational institutions and laboratories for producing complex structures and detailed models.
- Aesthetic and Artistic Designs: SLA 3D printers are suitable for producing detailed and aesthetically rich artworks, sculptures, and design objects.
- Customized Product Production: Ideal for creating high surface quality products that can be customized according to personal needs.
- Functional Modeling: SLA 3D printers produce functional models for visual and ergonomic evaluations of prototypes.
- Medical and Dental Applications: SLA technology is frequently preferred in dentistry and medical applications for producing customized prosthetics, implants, and models using biocompatible materials.