We provide Metal Powder, FDM Filament, Granular, Pallets, Resins, and Binders for manufacturing. Our offerings include Blue Light 3D Scanners and Micro-machining services, ensuring precision and quality in every project.
Metal powders are used in
various types of 3D printing, particularly in powder bed fusion (PBF) and direct energy
deposition (DED) processes. These powders can be made from various metals and alloys,
including titanium, aluminum, stainless steel, and cobalt-chrome.
The powder form
allows for high precision and control during the printing process, making it suitable for
producing complex geometries and high-performance parts used in aerospace, medical, and
industrial applications.
Fused Deposition Modeling (FDM) is a popular 3D printing technology that uses thermoplastic materials. The materials for FDM can come in several forms:
Filament: The most common form, typically available in spools.
Materials include PLA, ABS, PETG, nylon, and more.
Granular/Pellets: Some industrial FDM printers use granules or
pellets instead of filaments. This can be more cost-effective and allow
for the use of a wider variety of materials, including those with
additives or reinforcements.
Resins are integral to stereolithography (SLA) and digital light processing (DLP) 3D
printing technologies. These liquid photopolymers solidify under UV light to create durable
parts. Resins can be tailored to exhibit a range of properties, including flexibility,
strength, and temperature resistance.
This versatility makes them ideal for diverse applications, such as precise dental
models, intricate jewelry designs, and detailed prototyping. Whether you need high detail
for small-scale items or robust materials for functional prototypes, specialized resins
offer the adaptability needed to meet various demands.
Ceramic materials can be used in several 3D printing processes, including binder jetting and material extrusion. Ceramic 3D printing allows for the creation of complex shapes and structures that are difficult to achieve with traditional ceramic manufacturing techniques.
The resulting parts are used in applications requiring high heat resistance, electrical insulation, and biocompatibility, such as in the aerospace, automotive, and medical industries.
In binder jetting, a liquid binder is selectively deposited onto a bed of powder (metal, ceramic, or other materials), binding the powder particles together to form a solid part. The binder acts as a glue to hold the particles in place until the part is finished and post-processed (e.g., sintering or infiltration). Binders can also be used in other processes like selective laser sintering (SLS) to enhance material properties or part integrity.
Structured light 3D scanners, typically mounted on a camera stand, robot, or tripod, function as point-and-shoot cameras and need little or no programming with minimal setup. The technology is based on the projection of structured light, which is then captured by high-resolution cameras. The blue light 3D scanner is primarily based on structured light 3D scanning technology and consists of a camera, projector, and lens system for data collection. These scanners can perform quick surface scans with the finest resolution in the range of a few microns and the highest accuracy.
Micro-machining is a precise manufacturing process used to fabricate miniature components with dimensions typically in the micrometer range. It involves the removal of material from a workpiece using cutting tools with extremely small diameters and high precision machinery.
Micro-machining techniques include micro-milling, micro-turning, micro-drilling, and micro-grinding, which are essential in industries such as aerospace, electronics, and medical devices where intricate and tiny parts are required.