INCEPT-1: A new generation of 3D printing
Pioneers of patented liquid extrusion technology for recycled plastic waste; accelerating the transition towards sustainable manufacturing.
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Opening the door to advanced materials 3D printing
Go beyond traditional filaments with our patented liquid extrusion technology. Print with advanced materials like silicones for flexible parts, high-performance epoxies for structural components, polyurethane foams for cushioning, and specialty composites – all on a single modular platform.
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Engineering the Future
Smart Flow Control
Advanced real-time flow monitoring ensuring precise material deposition for complex geometries.
Unlimited Volume
Continuous feed system eliminates material constraints for large-scale manufacturing.
Composite Fabrication
Process silicone, epoxies, alginates, and advanced composites with unmatched versatility.
Patented Technology
Revolutionary extrusion technology for recycled plastic waste and sustainable manufacturing.
INCEPT-1 Material Capabilities
Overview
INCEPT-1 is a modular 3D printing platform where you can seamlessly switch between different materials by simply changing the mounting head. This revolutionary approach enables processing of silicone, epoxy resins, foams, and advanced composites on a single machine. From flexible gaskets to rigid structural parts, from insulation foams to conductive circuits – unlock limitless manufacturing possibilities with one platform.
Silicone
Flexible, heat-resistant parts for gaskets, seals, and medical devices
Epoxy Resin
High-strength structural components and protective coatings
Foam
Lightweight cushioning, insulation, and packaging solutions
Conductive Ink
PCB manufacturing and electronic circuit prototyping
Carbon / Glass Fibers
Continuous fiber reinforcement for high-strength composites
Precision
Max Viscosity
Print Speed
Build Volume
Our Ecosystem & Incubation Partners
Our venture has been nurtured by leading academic, technology, and business incubation ecosystems that have supported us from research and prototyping to commercialization and scale.
IIT Indore
Founder Alumni institute, Ideation, foundational research, and early-stage technology development that helped shape our innovation journey.
National Centre for Additive Manufacturing (NCAM)
Tripraman-3 Incubated ,Supported technology incubation, product development, and advancement of additive manufacturing capabilities.
NSRCEL, IIM Bangalore
Launchpad 26, Business incubation, mentorship, strategic guidance, and startup ecosystem support for commercialization and growth.
Real experts, real innovation
Led by R&D experts from IIT Indore with deep experience in mechanical engineering and additive manufacturing.
Conceptualization
INCEPT-1 was conceptualized to tackle cost and waste in FDM 3D printing, enabling variety of materials beyond traditional filaments.
Development
Static experimental setup created for assessing stepper, valve, and nozzle performance with multiple material validation.
Material Testing
Successful testing with polyurethane, silicone, alginate, fumed silica, and calcium carbonate composites.
Today
Transitioning from technology development to real-world deployment through pilot programs, customer discovery, industry collaborations, and commercialization initiatives.
Ready for Launch
Commercial Partnerships
Powering future industries
From aerospace to healthcare, INCEPT-1 enables breakthrough applications across diverse sectors with its versatile material processing capabilities.
Aerospace
Lightweight structural components and thermal management systems for aviation
Biofabrication
Tissue scaffolds and biocompatible structures for advanced research
Healthcare
Custom prosthetics, implants, and medical device prototypes
Manufacturing
Industrial tooling, molds, gaskets, seals, and prototypes
Advancing the Science
Our commitment to innovation is backed by peer-reviewed research published in leading academic journals.
Optimizing Time in Additive Manufacturing
A Hybrid Approach
Emerald Publishing
2024
Rapid Prototyping Journal
Emerald Publishing • 2024
Optimizing Time in Additive Manufacturing: A Hybrid Approach
Harsh Vardhan, Dr. Girish Chandra Verma
This research presents a novel hybrid approach to optimize manufacturing time in additive manufacturing processes. By combining advanced path planning algorithms with real-time flow control mechanisms, we demonstrate significant improvements in print efficiency without compromising structural integrity. Our methodology integrates liquid-based extrusion technology with intelligent material deposition strategies, achieving up to 40% reduction in production time while maintaining precision tolerances of ±0.1mm.
Key Findings
Citation
Vardhan, H., & Verma, G.C. (2024). Optimizing Time in Additive Manufacturing: A Hybrid Approach. Rapid Prototyping Journal. Emerald Publishing.
Meet the Innovators
A passionate team of engineers, researchers, and industry experts driving the future of additive manufacturing.
Harsh Vardhan
Lead R&DM.S. Research IIT Indore Ex Subros, Asst. Manager R&D (2 Years)
Karan Singh
Legal & MarketingB.com. LLB. DAVV
Dr. Girish Chandra Verma
Professional AssistanceAsst. Prof. IIT Indore Mechanical Dept.
Lakshya Janghel
Software & FirmwareSoftware and firmware development B.Tech CSE.
Integrated Power Advantage
Our integration services ensure your design fully leverages the benefits of our advanced extrusion systems. By collaborating early in the design process, we help optimize your manufacturing workflow.
How it works:
Send us a message with your requirements
We'll schedule a call to discuss your needs
Design & integration consultation
Manufacturing & delivery coordination