M-TEC INDIA
Engineering Execution Delivery
Category A — Industrial Machines & Heavy Equipment
1. Machine Design – Plate Cutting, Forming & Bending Systems
Objective
Develop new machine designs and upgrade legacy systems across punching, press, roll‑forming, and bending platforms.
Execution Summary
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Used CAD reference data from previous machines
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Created design specs and functional sketches
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Delivered 3D models and detailed drawings using IDEAS NX & SolidWorks
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Ensured manufacturability, structural reliability, and attachment integration
Delivered Outcome
A long‑term engineering relationship active since 2006, enabling the client to launch multiple machine variants efficiently and reliably.
2. Transfer Gantry & Raising Beam – Material Handling
Objective
Redesign gantry and raising beam systems for PTM movement with full structural compliance.
Execution Summary
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Redesigned columns, girders, wheel guards, and truck body
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Added electrical access frame and separated power/control cable trays
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Delivered updated manufacturing and field‑erection drawings
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Complied with EN, ISO, and client standards
Delivered Outcome
A fully re‑engineered gantry system delivered in 12 weeks, improving movement stability and maintenance access.
3. Conveyors Redesign – Aluminum Foundry Equipment
Objective
Redesign ten conveyors for moving heavy graphite electrodes.
Execution Summary
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Re‑engineered all conveyors per layout, process flow, and structural load
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Created detailed frames, assemblies, and installation drawings
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Used EN/ISO and client‑specific standards for welding and fasteners
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Managed consistent fitment across all ten variants
Delivered Outcome
A standardized conveyor ecosystem delivered in 16 weeks, improving reliability and throughput in foundry operations.
Category C — Product Engineering & Tooling
4. Spray Dryer & Storage Tank – Structural Engineering
Objective
Prepare fabrication and assembly details for spray dryer structures and storage tanks.
Execution Summary
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Detailed all structural steel members, gussets, connection plates, girders, and shells
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Developed shipment details and field‑erection drawings
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Complied with ASME standards and client BOM methodology
Delivered Outcome
Complete manufacturing-ready documentation delivered in 10 weeks, enabling smooth fabrication and on-site assembly.
5. Reverse Engineering – Cooling & Carbonization Unit
Objective
Create a full 3D digital model of a physical unit with complete manufacturing outputs.
Execution Summary
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Digitized data using precision measurement tools
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Addressed all fitment, functional, and assembly constraints
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Delivered interference‑checked 3D assemblies + detailed drawings
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Prepared complete BOM
Delivered Outcome
A production‑ready CAD package delivered in 6 weeks, enabling renewals, maintenance, and future upgrades.
Category D — Custom Attachments & Industrial Products
9. Fork Lifter Attachment
Objective
Develop a worm‑gear‑based lifting attachment for heavy loads.
Execution Summary
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Designed structural assembly using MS and gun‑metal
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Integrated automatic actuation
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Addressed lifting stability, load distribution, and safety
Delivered Outcome
A robust attachment suitable for lifting heavy machines, drums, and castings in industrial environments.
10. Microscope Camera – Industrial Housing Design
Objective
Develop the external and internal housing of a compact microscope camera.
Execution Summary
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Designed ergonomic exterior forms
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Engineered internal fit for optical components
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Created assembly‑friendly plastic enclosure geometry
Delivered Outcome
A manufacturable, compact optical device ready for prototyping and testing.
Category C — Product Engineering & Tooling
6. Product Development – Mould‑Ready Assemblies
Objective
Convert sketches and physical samples into mould-ready product designs.
Execution Summary
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Performed precision 3D measurement and digital reconstruction
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Addressed assembly fit, tolerances, and functional constraints
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Delivered detailed manufacturing drawings and BOMs
Delivered Outcome
Industrial components delivered within 6–10 weeks, ready for mould fabrication and mass production.
7. Sanitary Faucet – Internal Design Improvement
Objective
Re‑engineer internal assemblies of faucets and brass casings using standard parts.
Execution Summary
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Mapped internal waterways, valves, and fittings
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Conducted functional checks and optimized arrangement
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Suggested multiple design options and gained client approvals
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Reduced cost and inventory through optimized design
Delivered Outcome
A 2‑year continuous engineering program delivering improved performance, reduced cost, and standardization across product lines.
8. Winch Design – High‑Volume Die‑Cast Mechanisms
Objective
Design aluminum die‑cast winch variants from concept to production.
Execution Summary
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Optimized wall thickness, weight, and strength
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Completed tool design considerations and VAVE inputs
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Performed iterative design, tolerance analysis, and FEA
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Designed for high‑volume manufacturing feasibility
Delivered Outcome
Award‑winning products launched in the United States, delivered in 8–11 weeks with rapid client approval.
