Turbojet Engine Model Manufacturer,Supplier and Exporter in India
Product Code : SCL-H-11186
The Lab Exports Turbojet Engine Model features a carefully sectioned cutaway design that exposes the internal pathway of air through the engine. Constructed from durable, lightweight cast alloys and rigid polymers, it ensures long-lasting functionality under frequent classroom use. Every major stage—from the air intake and compressor section to the combustion chamber, turbine wheel, and exhaust nozzle—is distinctly color-coded and mechanically linked to illustrate real-time operational physics.
This didactic training aid allows students to visualize the mechanical synchronization between the turbine and compressor stages. Operating via a safe, low-speed manual hand crank, the model simulates internal component rotation without the hazards associated with real combustion or high pressures. It is an indispensable teaching tool that fits seamlessly into advanced mechanical and aerospace engineering curricula, enhancing theoretical lectures with hands-on mechanical interaction.
Key Features
Exposing Cutaway Design: Offers an unrestricted view of the internal rotor blades, stator vanes, and fuel injection nozzles.
Linked Mechanical Parts: Hand-crank operation physically turns the central shaft, spinning the axial compressor and turbine stages together.
Color-Coded Thermodynamic Zones: Features vivid, heat-resistant painted zones that visually separate low-pressure intake from high-temperature combustion areas.
Robust Metal and Plastic Body: Built from heavy-duty cast aluminum and high-impact polymers to withstand classroom handling.
Stable Base Mounting: Comes securely pre-mounted on a heavy metal pedestal stand for safe tabletop demonstrations.
Technical Specifications
|
Specification |
Detail |
|
Model Classification |
Functional cross-sectional cutaway model |
|
Main Materials |
Cast aluminum alloy and engineering grade polymers |
|
Operation Type |
Manual hand crank mechanical simulation |
|
Base Type |
Sturdy, non-slip metal support stand |
What's Included in the Kit
1 x Turbojet Engine Model (Fully assembled and mounted on a base)
1 x Detachable manual hand-crank handle
1 x Detailed educational manual containing labeled parts diagrams and step-by-step experiment outlines
Applications / Uses
Demonstrating the fundamental stages of the Brayton thermodynamic cycle (Intake, Compression, Combustion, Exhaust).
Teaching gas turbine component layout and turbine-to-compressor shaft connectivity.
Serving as an interactive aerospace teaching aid in aviation maintenance training academies.
Providing an engaging visual display for museum exhibits and STEM-focused student programs.
How to Use the Turbojet Engine Model
Place the assembled engine model on a flat, level demonstration table with sufficient clearance for the hand crank.
Familiarize students with the color-coded flow path, pointing out the blue intake zones and the red combustion/exhaust areas.
Slowly rotate the hand crank in the direction marked on the housing to actuate the central shaft.
Observe the synchronized movement, noting how the compression blades drive air inward and how the exhaust turbine blades rotate simultaneously.
Trace the theoretical fuel-air mixing pathways through the cutaway combustion chamber while the parts are in motion.
Safety Note: Keep fingers, loose clothing, and hair clear of the rotating gear mechanisms and exposed blade stages during mechanical operation. Do not force the crank if any mechanical resistance is felt.
Care & Maintenance
Clean external and internal model surfaces using a soft dry brush or pressurized dry air to remove dust.
Apply a small drop of light machine oil or silicone lubricant to the main bearing points and gear linkages once every semester.
Store the model under a protective dust cover in a dry, temperature-controlled environment to prevent oxidation on metal parts.
Why Choose Lab Exports
Lab Exports is a premium manufacturer and global exporter of high-grade scientific laboratory instruments and specialized educational models. We engineer our products to bridge the gap between abstract textbook theories and physical engineering designs. Our global logistics network ensures the secure delivery of high-quality didactic models to schools, universities, and technical academies worldwide. From customized engineering models to interactive didactic models, STEM models & kits, and comprehensive lab experiment setups, we provide the reliable tools modern classrooms need.
Frequently Asked Questions
What is a turbojet engine model used for?
A turbojet engine model is used in science and engineering classrooms to demonstrate the physical components, stages of compression, and basic mechanical principles of jet engine propulsion.
Does this model run on fuel or electricity?
No, this model is non-functional for actual combustion; it is a mechanical cutaway model operated manually via a hand crank to ensure maximum safety in classroom environments.
What materials are used to construct the model?
The model is built using a combination of durable cast aluminum alloy for structural components and high-impact polymers for non-load-bearing details.
Is this model suitable for university-level instruction?
Yes, its realistic representation of compressor blades, stator vanes, and turbine stages makes it an excellent visual teaching tool for university mechanical and aerospace engineering courses.
Does it require assembly upon arrival?
The model arrives fully assembled and pre-mounted on its heavy metal base stand, requiring only the insertion of the detachable manual hand crank to begin use.
Enhance your training facilities with authentic, durable engineering models. View our comprehensive selection on our dedicated didactic models category page.
