From Vision to Reality With Precision and Speed
R&D Mechanical Design Services
Innovate - Prototype - Launch
About TUBI
At TUBI, we specialize in early-phase R&D and mechanical design — transforming ideas into functional, manufacturable solutions.
Our process covers every stage of development: concept design, prototyping, testing, and design for manufacturing.
With over a decade of hands-on experience, we help innovators and engineering teams bring new technologies from concept to market with speed and precision.
Services
At TUBI we help you move quickly and efficiently through all stages of product development
Concept Development
From napkin sketch to engineering plan — we help define product requirements, brainstorm mechanisms, and assess feasibility.
Mechanical Design
Precision CAD modeling, mechanism design, tolerance analysis, and integration with electronics and fluidics.
Prototyping
Rapid prototypes using 3D printing, machining, or soft tooling. We test, refine, and repeat.
Design for Manufacturing
Smooth transition from concept to scalable design — ensuring early designs meet real-world constraints.
PROJECTS
Endoscope
Early R&D prototype translating concept into a tangible endoscopic solution
Sterile packaging design
A clean, durable packaging solution designed to maintain sterility, ensure ease of handling, and deliver a premium user experience
CAD Design and Modeling
One of many CAD projects developed in SOLIDWORKS, highlighting advanced surface modeling, geometric control, and parametric design capabilities used across diverse R&D applications
Design for Manufacturing
A streamlined fixture system optimized for repeatability, cost efficiency, and smooth transition from prototype to production-scale manufacturing
Patient-Specific Anatomy Model
A transparent anatomical replica derived from patient imaging, enabling realistic visualization, surgical planning, and device evaluation
Metal 3D Printing
A lightweight, lattice-structured component produced through metal additive manufacturing—demonstrating advanced design freedom and optimized material efficiency
Cardiovascular Nitinol structure
Translating breakthrough ideas into functional designs for next-generation cardiovascular technologies
Electro-Surgical Device Prototype
A development-stage prototype featuring an updated internal mechanical architecture designed to enhance energy delivery while maintaining the same compact form factor
Injection-Molded Part Design
One of several complex components developed for injection molding, reflecting broad experience in designing parts optimized for precision, manufacturability, and production efficiency
Electro-Mechanical Integration
A precision prototype uniting electronic circuitry and mechanical design into a compact, functional assembly for early concept evaluation
Anatomical Path Simulator
A transparent anatomical model replicating airway geometry, designed to visualize instrument navigation and support device development and training
Transport In Style
Early-stage transcatheter aortic valve concept focused on optimizing flow dynamics, deployment precision, and long-term durability
Disposable Laparoscopic Device
A minimally invasive surgical instrument redesigned with an updated form factor and refined usability, developed through a full design verification program
Pulse Duplicator for Valve Testing
A dynamic test system replicating physiological blood flow to evaluate prosthetic heart valve performance and durability under realistic conditions
Anatomical Cardiovascular Simulator
A realistic benchtop model replicating human cardiovascular anatomy and flow dynamics to evaluate device performance in lifelike conditions
Catheter Testing Setup
A precision test station configured to measure catheter performance characteristics with high-speed imaging and controlled mechanical loading