Services
1. 3DPrinting Workshops
We provide customized workshops to schools , college and professionals blending theory with practical sessions - 3 to 5 days.
2. 3DPrinting Services
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A. FDM (Fused Deposition Modelling)
It is a popular technique where object is created by melting and extruding thermoplastic material, layer by layer. FDM is widely used because it’s affordable, versatile, and suitable for creating prototypes, functional parts, and models. Common materials used in FDM printing include PLA, ABS, TPU and PETG, which are known for their durability and ease of use.
B. SLA 3D PRINTING
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SLA (Stereolithography) It uses a laser to cure liquid resin layer by layer to create a solid 3D object. The resin is contained in a vat, and the laser selectively hardens the resin based on a digital design, building the object from the bottom up.
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SLA is known for its high precision and ability to produce very detailed, smooth, and accurate parts, making it ideal for applications where fine detail is crucial, such as in jewelry, dentistry, or high-end prototypes.
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It offers superior surface finishes compared to other 3D printing methods, but the process is slower and typically requires post-processing to clean and cure the printed parts.
C. Matal 3D PRINTING
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SLS (Selective Laser Sintering) 3D printing is an advanced technique where a laser is used to selectively melt and fuse powdered material, usually plastic, metal, or ceramic, into solid layers to create a 3D object. Based on digital design the laser scans the path and part is formed.
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SLS is known for producing highly durable, complex, and detailed parts, often used for functional prototypes or small-batch production.
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Unlike other methods, SLS doesn’t require support structures, as the surrounding powder acts as support during the printing process. It’s widely used in industries like aerospace, automotive, and healthcare for creating parts with intricate geometries and high strength.
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We have tied up with COEP Make 3DLab for SLS parts printing
D. 3DScanning
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3D scanning or reverse engineering -It captures the shape and dimensions of an existing object and creates a digital file based on that point cloud data. The scanner captures the object’s surface details, converting them into a 3D file that can be modified or analyzed.
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This process is especially useful for recreating parts without having existing CAD designs, repairing or improving old components, or replicating complex geometries.
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Reverse engineering helps in various industries, such as manufacturing, automotive, and healthcare, enabling the reproduction or enhancement of physical objects, often for prototyping, repair, or customization.
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We have tied up with COEP 3DMake Lab for Industrial scanning requirement
3. Rapid Prototyping
COE collaborate with MSME and industries to provide rapid prototyping services . Rapid prototyping allows designers and engineers to create quick physical prototype from the designs . It accelerate product design cycle by early detection of design flaws and improving them before moving into large-scale production
4. Product Designing & Development Services
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3DPrinting is used in new products development or improving existing design. Technology helps to reduce lead cycle time from the initial concept to production. It helps to test design quickly to ensure that the product is functional, user-friendly, and meets market need.
5. 3D Printed Academia Prototypes
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Students can leverage COE facility to build prototypes for their academic and Co-curricular activities. 3DPrinting helps teacher for interactive teaching through different Teaching Aid materials, thereby helping students to understand difficult concept with ease
