Shrimp Processing Machine
A complete industrial redesign of a shrimp processing machine—from early concept to production-ready 3D models, molds, renders, and a commercial product video.
Manufacturing
CAD Design
Prototyping
Product Visualization
Overview
This project began with direct collaboration with medical professionals, access to real anatomical bone sets, and classic reference textbooks. Instead of relying on scans, every model was sculpted by hand—built up layer by layer using doctors’ guidance to ensure anatomical accuracy. Each curve, notch, ridge, and subtle structural feature was cross-checked with real bones and expert feedback to get the forms as close to authentic human anatomy as possible.
Services
Anatomical Research & Reference Gathering, 3D Reconstruction & Digital Sculpting, Photorealistic Rendering.
Client name
Kasturba Medical College (KMC), Manipal | MAHE
Team
TS Studios, Piltover Technologies
How the Initial Data was Collected
The process involved studying real bone samples in person, reviewing medical illustrations, and validating proportions with doctors who understand the nuances of anatomy far beyond what generic 3D models capture. Their input shaped everything—from overall silhouette to tiny landmark details—resulting in models that feel both scientifically accurate and artistically refined.
How the 3D-Printable Bones Looked
The final 3D bones came out crisp, well-defined, and surprisingly lifelike. Each model carried the natural imperfections and surface transitions you’d expect from real bones, but refined just enough to print cleanly on any 3D printer. The geometry was smooth where it needed to be and sharply detailed where structure mattered, giving the whole set a polished, museum-quality aesthetic. When arranged together, they looked like a miniature anatomical exhibit—organized, educational, and visually striking.
How the 3D-Printable Bones Were Tested
Once the models were finalized and printed, the entire set was reviewed by professors of anatomy who compared each piece directly against real bone specimens. They inspected proportions, surface landmarks, curves, ridges, and overall structure to ensure everything aligned with true anatomical standards. Their feedback helped confirm that the prints accurately represented the form and function of actual bones, making the set reliable for education, reference, and visualization.
From Real Bones to Printable Models
Take a quick look behind the scenes at how this entire project came together — from studying real anatomical bones with doctors, to sculpting each piece in 3D, refining forms through expert feedback, testing the printed samples with anatomy professors, and finally rendering the models in a polished, studio-quality style. This visual walkthrough captures the full evolution of the work, step by step.
Final Renders
The Final Experience
The renders highlight every contour and landmark under controlled studio lighting, giving viewers a realistic preview of what they’ll print. Whether you’re a designer, medical student, educator, or someone who loves collecting unique anatomical models, this set delivers accuracy without clinical dryness—anatomy reimagined in a clear, accessible, visually beautiful format.
This is anatomy sculpted—not scanned—with precision, care, and a slightly obsessive attention to detail.
3D AR/VR
Immersive Experience Company
If you like what you see or have any questions, feel free to send me an email anytime.
Selected work
[2022 -2025]
Shrimp Processing Machine
A complete industrial redesign of a shrimp processing machine—from early concept to production-ready 3D models, molds, renders, and a commercial product video.
3D-Printed Anatomical Bone Set
An anatomically precise 3D bone collection designed for printing, education, and digital visualization