Services
Our Services
The flexibility of 3D printing opens up new possibilities for innovative applications in industries such as aerospace, healthcare, automotive, architecture, and consumer goods. It fosters creativity and enables the development of novel solutions to complex challenges.
01.
Fused Depostion Modeling (FDM)
FDM is a filament-based technology which works by melting thermoplastic via a heated extruder. The melted plastic is then deposited onto the printers build platform one layer upon another layer. Each layer hardens and cools down instantly upon the previous layer, binding both the layers together. Support structures are created where needed or for more complex overhanging geometries.
02.
Selective Laser Sintering (SLS)
SLS is an additive manufacturing process that uses a laser-based technology. A computer guided laser beam selectively creates parts by sintering polymer powder particles to bind them together. During the 3D printing process, the SLS machine preheats the powder material that is in the printer bed to just below its melting point and then the laser further raises the temperature of the selected regions to melt and fuse the powder together.
03.
Stereolithography Apparatus (SLA)
Stereolithography Apparatus also knows on as SL (Stereolithography), is a 3D printing process that converts UV sensitive photopolymer liquid resin into solid parts, layer by layer, by selectively binding the liquid together using a UV laser beam in a process known as photopolymerization. Patented in 1986 by its inventor, SLA is famous for being the first 3D printing technology.
04.
MultiJet Printing (MJP)
MultiJet Printing (MJP) is a 3D printing process that uses a multi-jet printer to deposit layers of photocurable plastic resin or wax to create parts, patterns, and molds. It is used in CPX for jewellery wax printing and lost wax casting also known as investment casting.
Our Specialization
Some of the areas we specialize in are mentioned below:
Prototyping
3D printing is widely used for rapid prototyping in product development. It allows designers and engineers to quickly iterate and test designs before committing to mass production, reducing time and cost.
Architectural Models
Architects and urban planners use 3D printing to create detailed scale models of buildings and cityscapes. It helps visualize designs, communicate concepts to clients and stakeholders, and detect potential design flaws early in the planning stages.
Tooling and Manufacturing Jigs
Manufacturers use 3D printing to produce custom tooling, fixtures, and manufacturing jigs. It improves efficiency, reduces lead times for production setup, and enables cost-effective small-scale manufacturing.
Customized Healthcare Products
In healthcare, 3D printing enables the customization of medical devices, prosthetics, and implants tailored to individual patient anatomy. This improves comfort, fit, and functionality for better patient outcomes.
Art and Sculpture
Artists and sculptors utilize 3D printing to create intricate sculptures, installations, and artworks that push the boundaries of traditional art forms. It facilitates the realization of complex and unique artistic visions.
Automotive Parts and Prototyping
Automotive manufacturers use 3D printing for prototyping new designs and producing low-volume or custom parts. It speeds up development cycles, allows for design optimization, and supports just-in-time manufacturing strategies.
We Provide the Best Service in Industry
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