Our Research Divisions

Dual verticals driving innovation at the frontier of engineering and life sciences

Advanced Manufacturing Research

Creating Low-Cost Manufacturing Solutions

We develop revolutionary 3D printing and manufacturing technologies that democratize access to advanced fabrication capabilities. Our research focuses on radical cost reduction without compromising precision or capability.

Research Focus Areas

Bio 3D Printing Systems

Developing affordable bioprinting platforms for tissue engineering and regenerative medicine applications. Focus on precision dispensing systems, temperature control, and biocompatible material handling.

  • Multi-material extrusion systems
  • Precision thermal regulation
  • Sterile environment control
  • Sub-micron positioning accuracy

FDM & SLA Systems

Next-generation desktop to industrial-scale additive manufacturing systems with advanced motion control, innovative extruder designs, and improved build quality.

  • Custom kinematics (CoreXY, Delta)
  • High-speed motion planning
  • Advanced slicing algorithms
  • Multi-material capabilities

Precision Water Cutting

Developing high-pressure water jet cutting systems for versatile material processing with focus on cost-effective componentry and precision nozzle design.

  • High-pressure fluid dynamics
  • Abrasive mixing systems
  • 5-axis cutting heads
  • CNC motion control

Embedded Controls & Firmware

Developing robust, real-time control systems, custom PCB designs, and open-source firmware adaptations for all manufacturing platforms.

  • Real-time motion control
  • Custom PCB development
  • Sensor integration
  • Safety systems
Regenerative Medicine Research

Pioneering Next-Generation Healthcare

Caliber Regenerative Medicine and Materials is focused on developing advanced synthetic bone graft substitutes (BGS) and biologics for orthopedic, dental, and maxillofacial applications, prioritizing products that enhance osseointegration, are fully bioresorbable, and offer a significant cost advantage over imported materials.

Research Focus Areas

Bone Regeneration Materials

Developing next-generation synthetic bone graft materials for dental and maxillofacial applications. Focus on bioactive ceramics and composite materials that promote rapid osseointegration.

  • Advanced Bioactive composites
  • 3D bioprinting
  • Integrating biologically active agents
  • Economical Synthetic Scaffolds

Advanced Biomaterials

Research into novel material compositions, surface modifications, and processing techniques to enhance biocompatibility and regenerative potential.

  • Material characterization
  • Biocompatibility testing
  • Degradation kinetics
  • Mechanical properties optimization

Tissue Engineering

Investigating scaffold architectures, cell-material interactions, and vascularization strategies for effective tissue regeneration.

  • 3D scaffold design
  • Cell culture studies
  • In vitro testing protocols
  • Biomimetic design

Clinical Translation

Bridging laboratory research to clinical application through rigorous validation, regulatory compliance, and collaboration with dental institutions.

  • Pre-clinical studies
  • Clinical trial design
  • Regulatory pathway navigation
  • Academic partnerships

Our Research Philosophy

Fundamental Innovation

We don't just improve existing solutions—we rethink problems from first principles to create breakthrough innovations that open new possibilities.

Cost-Conscious Design

Every project is guided by the mission to make advanced technology accessible. We engineer for affordability without sacrificing quality or capability.

Open Collaboration

We believe in the power of collaboration with academic institutions, industry partners, and the open-source community to accelerate progress.

Indigenous R&D

Committed to building truly Indian intellectual property and manufacturing capabilities aligned with Make in India initiatives.

Collaborate With Us

Interested in research partnerships, technology licensing, or academic collaboration?

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