Scientico

VibranoX Series by SCIENTICO – Advanced Vibration Technology Lab Equipment for Engineering Education

SCIENTICO proudly presents the VibranoX Series, a comprehensive suite of Vibration Technology Lab Equipment designed to meet the evolving academic and industrial training needs of engineering institutions worldwide. With over three decades of experience in precision educational equipment, SCIENTICO has established itself as a globally trusted Vibration Technology Lab Equipment Manufacturer and Exporter, delivering performance, durability, and pedagogical value across every product.

Complete VibranoX Model Lineup:

1. VibranoX 01 – Whirling of Shaft Apparatus
Study of critical speeds, self-centering behavior, and oscillation modes in both Laval rotors and continuous shafts.

2. VibranoX 02 – Free and Forced Vibration of Beam
Comprehensive beam vibration trainer to analyze natural frequency, mode shapes, and forced responses under various boundary conditions.

3. VibranoX 03 – Universal Vibration Apparatus
Multi-functional system for conducting experiments on spring-mass systems, dampers, and beam dynamics in a single compact platform.

4. VibranoX 04 – Undamped and Damped Torsional Vibration Apparatus
For analyzing torsional oscillations in shafts and discs, with and without damping.

5. VibranoX 05 – Vibration Table Apparatus
Used for simulating vibration effects on structures or mechanical components with controllable frequency and amplitude.

6. VibranoX 06 – Bifilar Suspension Apparatus
Study of oscillations and moment of inertia in rigid bodies suspended by two parallel cords.

7. VibranoX 07 – Motorized Gyroscope Apparatus
Demonstration of gyroscopic principles, precession, and angular momentum in rotating systems.

8. VibranoX 08 – Free and Forced Vibration Apparatus
Advanced trainer with multiple configurations for analyzing resonance, damping, and forced vibration using servo and rotary exciters.

9. VibranoX 09 – Spring Mass Vibration System
Vertical setup for exploring Hooke’s Law, natural frequency, and damping using tension springs and calibrated masses.

10. VibranoX 10 – Torsional Vibration System
High-precision torsional dynamics unit with multi-disc configuration, shaft encoders, and servo excitation.

11. VibranoX 11 – Ship Vibration Apparatus
Marine engineering module for studying resonance and natural frequencies of ship structures under air and floating conditions.

12. VibranoX 12 – Forces in Reciprocating Engines Apparatus
Simulation of single- to four-cylinder engines with real-time measurement of unbalanced forces using load cells.

13. VibranoX 13 – Damage to Gears Kit
Diagnostic system for identifying gear damage through vibration analysis in spur and helical gear configurations.

14. VibranoX 14 – Brake & Load Unit
Magnetic particle brake system for applying controlled torque loads to diagnostic and vibration test rigs.

Why Choose the VibranoX Series by SCIENTICO?

• Designed & Manufactured by SCIENTICO, India’s leading name in engineering lab equipment since 1993

• Trusted Vibration Technology Lab Equipment Manufacturer with ISO 9001:2015 certification and CE-marked products

• Exported to over 35 countries as a reliable Vibration Technology Lab Equipment Exporter

• Modular, upgradeable systems supporting both manual and digital data acquisition

Static and Dynamic Balancing – VibranoX 02 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO introduces the VibranoX 02 – Static and Dynamic Balancing Apparatus, a precision-engineered Vibration Technology Lab Equipment that enables students and researchers to analyze and visualize unbalanced forces in rotating systems. Designed for accuracy, safety, and clarity, this benchtop unit provides hands-on experimentation for understanding static, dynamic, and basic unbalance in rotors.

As a leading Vibration Technology Lab Equipment Manufacturer, SCIENTICO has engineered this model to demonstrate key principles of mechanical balancing with real-time speed control, variable weights, and angular adjustments. It plays a critical role in mechanical engineering and vibration analysis laboratories, where understanding the effects of unbalance is essential for machine safety, rotor design, and predictive maintenance.

Experiments You Can Perform:

• Demonstration of centrifugal force and its role in rotor unbalance

• Determination of static unbalance using suspended weights and pulleys

• Investigation of dynamic unbalance with variable mass positioning

• Balancing of shafts using angle and length measurements

• Study of moment compensation using adjustable balancing blocks

Technical Specifications:

• Benchtop unit designed for both static and dynamic balancing

• Includes adjustable unbalance weights that can slide along the shaft

• Integrated angular and longitudinal positioning gauges

• Equipped with speed-controlled motor and digital speed display

• Transparent protective hood for safety and clear observation

• Includes detachable pulley, buckets, and metallic balls for static balancing

• Motor operated via function generator

• Elastic-mounted base for vibration damping

• Electronic speed measurement and variable drive settings

Description:

This apparatus is built to demonstrate how rotating masses create unbalance, both in static and dynamic systems. A precision shaft is mounted horizontally with support from high-quality ball bearings. The motor, connected through a pulley, imparts variable speed to the shaft. Four sliding masses with adjustable angles allow students to create specific unbalanced conditions, replicating real-world rotor configurations.

Static unbalance is investigated using a pulley system, buckets, and metallic balls to analyze the force exerted in the absence of rotation. Dynamic unbalance is studied while the shaft is in motion, and moments can be applied and measured for comparison. The transparent safety cover ensures a clear view and maximum protection during high-speed rotation.

As part of our VibranoX series, this model reflects SCIENTICO’s commitment to advanced, safe, and curriculum-aligned Vibration Technology Lab Equipment. The setup is suitable for undergraduate mechanical labs, polytechnic institutes, and technical universities worldwide.

Why Choose SCIENTICO?

• Established Expertise: Over 30 years as a trusted Vibration Technology Lab Equipment Manufacturer

• International Certifications: ISO 9001:2015 certified, CE-marked, MSME registered

• Global Reach: Recognized Vibration Technology Lab Equipment Exporter to 35+ countries

• In-house R&D: Customization available based on curriculum or lab needs

• Reliable Support: Complete technical guidance and after-sales service

VibranoX 03 – Vibration of Spiral Spring Apparatus | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO proudly presents the VibranoX 03 – Vibration of Spiral Spring Apparatus, a high-precision unit designed for investigating the natural frequency and stiffness of spiral spring systems. Built for mechanical and vibration labs, this apparatus is a part of our advanced VibranoX series—a globally trusted range of Vibration Technology Lab Equipment tailored for practical engineering education.

This wall-mounted unit allows students and researchers to analyze oscillations in a spiral spring with an adjustable moment of inertia. It offers insights into the behavior of rotating masses and helps determine the natural frequency under different mass configurations. Trusted by technical institutes worldwide, this model is developed in SCIENTICO’s ISO-certified facilities—making us a recognized Vibration Technology Lab Equipment Manufacturer and Exporter.

Experiments You Can Perform:

• Determination of spiral spring stiffness

• Measurement of natural frequency of a rotating mass system

• Study of system behavior with variable total vibrating mass

• Analysis of effects due to different mass distributions on lever arms

Technical Specifications:

• Spiral spring made from cold rolled steel

• Shaft with ball bearing mounting for smooth rotation

• Fixed bracket supports the spring’s stationary end

• Two levers with sliding metallic weights, secured by clamping screws

• Adjustable moment of inertia of rotating mass system

• 1° scale disc for precise angular displacement readings

• Measures periodic time of torsional vibrations

• Effective torque arm: 30 mm

• Comes with a stopwatch and complete accessory set

• Includes detailed instruction manual

• Wall-mounted apparatus for stability and visibility

Description:

The VibranoX 03 enables a hands-on understanding of torsional vibrations in spring-mass systems. A spiral spring, mounted between a fixed bracket and a freely rotating shaft, serves as the core of the setup. Two levers with adjustable masses simulate the rotating system, and the user can vary mass and its distribution to observe the resulting oscillations.

This experiment is vital in the study of rotational dynamics and vibration damping systems. With flexible configuration, durable materials, and clear output readings, the unit is ideal for undergraduate, postgraduate, and research-level mechanical labs.

Why Choose SCIENTICO?

• Over 30 Years of Experience as a trusted Vibration Technology Lab Equipment Manufacturer

• Made in India with in-house design, R&D, and customization facilities

• ISO 9001:2015 Certified and CE Marked

• Global Exports to Africa, Asia, Middle East, and South America

• Prompt Support & Documentation with each product shipped

Frequently Asked Questions (FAQs)

Q1: What is the purpose of the VibranoX 03 apparatus?
A: It is designed to study the natural frequency and stiffness of spiral spring-based systems with rotating masses, useful in vibration analysis and mechanical engineering labs.

Q2: Can I vary the mass and its distribution during experiments?
A: Yes, two sliding weights can be adjusted both in mass and position to vary the system’s moment of inertia.

Universal Vibration Apparatus – VibranoX 06 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO proudly introduces the VibranoX 06 – Universal Vibration Apparatus, an all-in-one platform for advanced experimentation in mechanical vibration analysis. Designed for engineering colleges, polytechnic institutions, and research labs, this comprehensive unit covers a wide array of vibration phenomena—ranging from pendulums and spring-mass systems to beam vibrations, damped oscillations, and forced excitation.

As a leader in mechanical lab innovation, SCIENTICO continues to set benchmarks as a trusted Vibration Technology Lab Equipment Manufacturer. The VibranoX 06 is a robust, modular system mounted on a low-vibration steel frame with quick fastening grooves for seamless experiment setup. It provides exceptional learning opportunities through practical demonstration of core concepts in vibration technology.

Experiments You Can Perform:

• Analysis of various pendulums:

  • Kater’s pendulum

  • Bifilar pendulum (optional)

  • Compound pendulums

• Hooke’s Law and spring-mass vibration behavior

• Free and forced vibrations in rigid and flexible beams

• Study of:

  • Un-damped and damped vibrations

  • Linear excitation using servo motor and driver

  • Rotary imbalance excitation using DC motor

• Damped/undamped oscillation using oil-based damper

• Absorber effect in multi-mass oscillator systems

Key Features & Technical Specifications:

• Heavy-duty vibration-isolated frame with grooved base for fast configuration

• Includes 6 pendulums of different materials and sizes:

  • Steel balls (large/small), wood ball, compound pendulum (metal & wood), optional bifilar

• Spring-mass vibration section to explore Hooke’s Law and mass influence

• Flexible & rigid beam vibration setup, forced via:

  • Servo-driven linear exciter

  • DC rotary exciter

• Oil-based adjustable damper for controlled damping studies

• Digital display and control for exciter frequency adjustment

• Optional mechanical drum and polar diagram recorder

• Sensor-based amplitude measurement (optional)

• Data acquisition interface and software compatibility (optional)

• Includes storage tray for all accessories and components

Description:

The VibranoX 06 – Universal Vibration Apparatus is a complete solution for in-depth mechanical vibration studies. It provides hands-on exploration of fundamental and complex vibration concepts by combining multiple vibration mechanisms into one integrated platform.

Learners can observe natural frequency changes in pendulums of different masses and lengths, analyze spring behavior under load, and measure damped responses with the oil damper. Forced vibrations are demonstrated via precision exciters—one linear and the other rotary—controlled digitally for accuracy. The system supports both analog and digital measurements, and is optionally compatible with data acquisition tools for modern lab integration.

This all-in-one apparatus is ideal for engineering education and industrial training, making it one of the most versatile models in our VibranoX series of Vibration Technology Lab Equipment.

Free & Forced Vibration Apparatus – VibranoX 08 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO presents the VibranoX 08 – Free and Forced Vibration Apparatus, a comprehensive and advanced trainer designed for in-depth analysis of mechanical vibration phenomena. This high-precision unit forms an essential part of the VibranoX series—an industry-trusted range of Vibration Technology Lab Equipment developed to meet the experimental needs of engineering colleges, polytechnic institutes, and technical universities.

Built on a low-vibration, heavy-duty frame, this apparatus facilitates quick setup of complex vibration systems using fast clamping elements and formed grooves. It is ideal for performing experiments related to Hooke’s Law, spring-mass systems, beam vibration, resonance, phase response, and both free and forced vibrations in a single platform. 

Experiments You Can Perform:

• Study of Hooke’s Law and spring-mass system response

• Free and damped vibration analysis of rigid beams

• Forced vibrations using:

  • Linear excitation via servo motor

  • Rotary imbalance excitation via DC or servo rotary motor

• Investigation of resonance and amplitude/phase response

• Visualization of undamped and damped oscillation using oil-based damper

• Study of absorber effects in multi-mass oscillators

• Use of non-contact displacement sensors for real-time amplitude measurement

Technical Specifications:

• Modular vibration experiment setup mounted on sturdy steel frame

• Quick-fit grooves and storage tray for organized, tool-free configuration

• Includes:

  • Spring-mass vibration section with interchangeable weights

  • Rigid beam vibration setup for free, forced, damped & undamped conditions

  • Servo-driven linear exciter and DC rotary exciter

  • Oil-based damper with adjustable settings

  • Digital control unit for frequency adjustment

• Optional:

  • Mechanical drum and polar diagram recorder

  • Non-contact displacement sensor

  • Data acquisition software and interface for PC integration

Description:

The VibranoX 08 enables learners to engage in a wide variety of vibration analysis experiments from the basics of spring behavior to advanced forced oscillation systems. In the spring-mass section, Hooke’s Law is validated through variations in mass and displacement. In the beam vibration section, users can study both free vibrations and motor-induced forced vibrations.

Two types of exciters are included: a servo-based linear exciter for precise linear input and a rotary exciter for imbalance-based excitation. These inputs simulate real-world machine dynamics such as those in rotors and structural beams. A non-contact sensor enables electrical amplitude measurement, while the optional DAQ system provides a digital visualization of vibration behavior over time.

With quick assembly, interchangeable modules, and full instructional support, SCIENTICO’s VibranoX 08 sets a benchmark in Vibration Technology Lab Equipment for teaching and research environments.

Ship Vibration Apparatus – VibranoX 11 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO presents the VibranoX 11 – Ship Vibration Apparatus, a premium educational trainer for studying resonant vibration phenomena in ship structures. Designed as part of the advanced VibranoX series, this system simulates both in-air and floating conditions, allowing for precise analysis of natural frequencies and vibration modes in simplified hull models.

Developed for engineering colleges and research labs, the unit supports experimental modal analysis, making it a must-have in modern Vibration Technology Lab Equipment inventories. With an adjustable frame, precision excitation system, and integrated acceleration sensors, the VibranoX 11 enables a wide range of vibration experiments relevant to marine and structural engineering.

As a reliable Vibration Technology Lab Equipment Manufacturer, SCIENTICO ensures this setup delivers durable performance, easy usability, and academic value across all experimentation levels.

Experiments You Can Perform:

• Measurement of natural frequencies and vibration modes in a ship model (in air)

• Study of the effect of added mass or ballast on frequency and mode

• Observation of vibration response in water vs. air

• Practical vs. theoretical comparison of first bending natural frequency

• Analysis of resonance and damping characteristics in a ship hull model

Technical Specifications:

• Plastic model ship with flat bottom, open top, and elliptical plan form

• Length-to-beam ratio: 8:1 | Length-to-depth ratio: 12:1

• Heavy-duty rigid support frame with height-adjustable cross beam

• High-stiffness box beam section with high natural frequency

• Electrodynamic exciter with power amplifier

• Signal generator with sinusoidal, triangular, and rectangular output

• Acceleration sensor and measuring amplifier for real-time response tracking

• Output signal displayed via oscilloscope (optional)

• Includes ballasts, additional weights, and flotation tank

• Easy switch between suspended and floating mode

Description:

The VibranoX 11 – Ship Vibration Apparatus is an experimental setup designed to help students and researchers investigate the dynamic behavior of ship structures. The system supports two configurations: the ship model can be suspended in air or floated in the provided flotation tank. In both cases, vibration is induced via an electrodynamic exciter, and the model's response is measured using acceleration sensors positioned at key points.

This allows learners to perform accurate modal analysis and study how various parameters—such as mass distribution, buoyancy, and damping—affect vibrational characteristics. The apparatus encourages hands-on understanding of real-world ship design and testing processes, such as resonance avoidance and structural tuning.

An adjustable function generator creates a range of excitation signals (sinusoidal, triangular, and rectangular), allowing in-depth exploration of frequency-dependent behavior. The measured natural frequencies can then be compared to theoretical calculations using material properties and geometric data, facilitating a deeper comprehension of structural dynamics.

This unit is an essential tool for institutions focused on marine engineering, structural analysis, and advanced vibration technology education.

Whirling of Shaft – VibranoX 01 | Vibration Technology Lab Equipment | SCIENTICO

SCIENTICO presents the VibranoX 01 – Whirling of Shaft Apparatus, an advanced and precise Vibration Technology Lab Equipment designed to demonstrate one of the most critical aspects of mechanical engineering – the whirling phenomenon in shafts. This compact and robust bench-top setup allows users to study the behavior of rotating shafts under varying speeds and conditions, helping identify the critical speed and different modes of oscillation.

As a leading Vibration Technology Lab Equipment Manufacturer, SCIENTICO brings over 30 years of expertise into designing instruments that support advanced learning in mechanical labs and engineering institutions. This apparatus simulates real-world rotor dynamics and provides a visual and practical understanding of how centrifugal forces, unbalance, and resonance impact rotating machinery in industrial systems.

Experiments You Can Perform:

• Study of speed-dependent oscillations in shafts

• Identification of critical speed using Laval rotor with discrete masses

• Observation of modes of oscillation in continuous rotor shafts

• Influence of varying bearing spacing and shaft diameter on vibrations

• Demonstration of self-centering behavior of rotating shafts

Technical Specifications:

• Bench-top, self-contained apparatus for shaft whirling demonstrations

• Motor-driven shafts with variable speed control

• Digital speed display for accurate readings

• Includes multiple shafts with varying diameters and lengths

• Rotor made of high-strength steel disc

• Equipped with micro switch for power cutoff during excess amplitude

• Self-aligning bearing arrangement with interchangeable adapters

• Catch bearings to limit oscillation amplitude

• Elastic coupling for flexible and safe shaft rotation

• Optional support for vibration sensors and oscilloscope-based path display

Product Highlights:

• Demonstrates one of the most dangerous conditions in rotating machinery

• Shows how centrifugal forces and resonance can lead to destructive vibrations

• Helps students understand why whirling must be predicted and controlled

• Visualizes the relationship between shaft stiffness, speed, and unbalance

• Highly useful for curriculum-based mechanical vibration labs

At SCIENTICO, we understand the importance of safe and accurate mechanical experimentation. That's why our VibranoX series is globally trusted by technical universities, engineering colleges, and research laboratories. With in-house R&D and manufacturing, we ensure all our models meet international quality standards.

Whether you're in need of an educational solution or industrial-grade simulation tool, we are your go-to Vibration Technology Lab Equipment Manufacturer and Vibration Technology Lab Equipment Exporter.

Frequently Asked Questions (FAQs)

Q1: What is the main purpose of the Whirling of Shaft apparatus?
A: It demonstrates critical speeds and vibration modes in rotating shafts, helping learners understand the dynamics of shaft resonance and centrifugal effects.

Q2: Can I use this with different shaft sizes?
A: Yes, VibranoX 01 includes shafts of different lengths and diameters along with bearing adapters to accommodate them.

Torsional Vibration Apparatus – VibranoX 04 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO presents the VibranoX 04 – Torsional Vibration Apparatus, a compact and accurate setup for the practical investigation of rotary vibration phenomena in engineering education. As part of our advanced VibranoX series of Vibration Technology Lab Equipment, this apparatus enables learners to study the effects of torsional rigidity, length, and mass distribution on the period of oscillation.

As a trusted Vibration Technology Lab Equipment Manufacturer, SCIENTICO has engineered this wall-mounted unit to offer flexibility, ease of use, and reliable measurements, making it ideal for mechanical and dynamics labs in technical institutes, engineering colleges, and R&D centers.

Experiments You Can Perform:

• Determination of torsional vibration period as a function of:

  • Torsion wire length

  • Torsion wire diameter

  • Rotating mass and its geometric configuration

Technical Specifications:

• Educational torsional vibration setup for hands-on experimentation

• Torsion rods made of high-grade aluminium for precise elasticity

• Mass disc and mass ring crafted from galvanised steel

• Chuck-based assembly allows secure and adjustable clamping

• HDF wall-mounting plate provides rigidity and space efficiency

• Adjustable effective length of torsion rod for variation-based analysis

• Simple and safe setup suitable for both beginners and advanced learners

• Includes experiment manual and guidance documentation

Description:

The VibranoX 04 allows users to observe and measure torsional vibrations on elastic rods under different experimental conditions. The apparatus features a robust wall-mounted frame, made of durable HDF material, providing a stable base for all rotational studies.

A strong central chuck enables quick and secure fitting of aluminium torsion rods, while a galvanised steel disc and ring act as rotating masses to create varying vibrational conditions. By adjusting the length and diameter of the rods and altering the form of the masses, students can directly measure how these variables affect the period of oscillation.

Designed with educational clarity in mind, the VibranoX 04 is widely adopted by institutions that prioritize quality lab-based learning in the domain of mechanical vibrations.

Why Choose SCIENTICO?

• Leading Vibration Technology Lab Equipment Manufacturer with 30+ years of legacy

• ISO 9001:2015 Certified | CE Marked | MSME Registered

• In-house R&D for tailored academic solutions

• Extensive presence in 35+ countries as a trusted Vibration Technology Lab Equipment Exporter

• Prompt technical support and installation guidance

Frequently Asked Questions (FAQs)

Q1: What is the objective of the VibranoX 04 Torsional Vibration Apparatus?
A: It demonstrates how the period of torsional oscillation changes with variations in rod length, rod diameter, and mass configurations—key concepts in mechanical vibration theory.

Q2: Can I adjust the length of the torsion rod?
A: Yes. The apparatus is designed to allow easy and accurate adjustment of the effective torsion rod length.

Q3: Is this equipment suitable for engineering colleges and universities?
A: Absolutely. VibranoX 04 is built for undergraduate and postgraduate mechanical labs focused on vibration and dynamics.

Free and Damped Torsional Vibration Apparatus – VibranoX 07 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO introduces the VibranoX 07 – Free and Damped Torsional Vibration Apparatus, designed to study torsional vibrations and damping behavior in rotary oscillating systems. This compact, precise unit is an ideal supplementary module to the Universal Vibration System (VibranoX 06) and forms a key part of our industry-trusted VibranoX series of Vibration Technology Lab Equipment.

This apparatus enables students and researchers to investigate the natural frequency of torsional oscillation, and understand how variables such as rotating mass, torsional stiffness, and damping factors affect vibration characteristics. Developed by SCIENTICO—an ISO 9001:2015 certified Vibration Technology Lab Equipment Manufacturer—this system is engineered to deliver both accuracy and durability for extended lab usage.

Experiments You Can Perform:

• Determination of the natural frequency of torsional vibration

• Effect of torsional rigidity on oscillation period

• Study of mass moment of inertia on system behavior

• Analysis of damping effect on torsional oscillation

• Observing variations due to rotating mass and damper settings

Technical Specifications:

• Supplementary unit for the Universal Vibration System (VibranoX 06)

• Includes:

  • 3 interchangeable torsion bars of varying stiffness

  • 2 precision-machined weight discs

  • Open oil-filled damper with visible operation

  • Ball-bearing mounted chuck with adjustable settings

• All components slot securely into universal vibration base frame

• Simple assembly and smooth rotation for repeated experiments

• Visual damping effect with amplitude decay observation

• Designed for rotary oscillator modeling in academic settings

Description:

The VibranoX 07 – Free and Damped Torsional Vibration Apparatus is developed to help learners explore key aspects of rotary vibration behavior in a controlled, hands-on lab setup. The experiment set includes three torsion bars with different stiffness levels and two mass discs to demonstrate the effect of changing mass moment of inertia.

The heart of the setup is its oil-filled open damper, allowing visible and measurable damping of oscillations. By using different combinations of bars and discs, learners can alter system dynamics and monitor how amplitude, frequency, and damping change accordingly.

This apparatus is an essential addition to vibration labs, where understanding rotary systems is critical. Engineered for clarity and precision, it is an excellent educational tool for mechanical engineering programs focused on structural dynamics and machinery diagnostics.

Why Choose SCIENTICO?

• 30+ Years of Engineering Excellence in lab equipment manufacturing

• Trusted Vibration Technology Lab Equipment Manufacturer with in-house R&D

• ISO 9001:2015 Certified, CE marked, and MSME registered

• Strong international presence as a Vibration Technology Lab Equipment Exporter

• Delivered to engineering colleges, technical universities, and R&D labs in 35+ countries

• Complete technical documentation and after-sales support included

Torsional Vibration System – VibranoX 10 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO proudly presents the VibranoX 10 – Torsional Vibration System, an advanced experimental setup for analyzing torsional stiffness, mass moment of inertia, damping, and resonance in rotational mechanical systems. Designed as a high-precision academic trainer, this system is ideal for engineering colleges and research institutions seeking reliable, modular Vibration Technology Lab Equipment.

As a leading Vibration Technology Lab Equipment Manufacturer, SCIENTICO has engineered the VibranoX 10 with cutting-edge servo control, real-time measurement capabilities, and durable stainless-steel construction. The unit enables a wide variety of experiments on free and forced torsional vibrations in systems with one, two, or three rotating masses.

Experiments You Can Perform:

• Measurement of torsional stiffness of the shaft

• Determination of mass moment of inertia of individual or combined masses

• Analysis of damped torsional vibration and decay behavior

• Study of resonance in forced vibration systems

• Investigation of multi-mass torsional systems (1, 2, or 3 discs)

• Effect of damping using adjustable oil damper

• Real-time angular displacement via shaft encoders

Technical Specifications:

• Frame built with anodized aluminum profiled structure

• Stainless steel torsion bar, corrosion-resistant

• 3 stainless steel mass discs for multi-mass configuration

• 4 ball-bearing mounted units with chucks – repositionable along the shaft

• Integrated oil damper to study damping influence

• Motorized servo exciter with drive crank (excitation amplitudes: 1.4°, 1.6°, 2.4°)

• 4 angular rotation sensors mounted on chucks

• Shaft encoders generate electrical signals for amplitude readings

• Digital frequency display on servo controller

• Optional DAQ software or oscilloscope for graphical output

Description:

The VibranoX 10 is a comprehensive system for exploring torsional vibration phenomena in rotating mechanical elements. The primary component is a stainless steel torsion bar fixed within an anodized aluminum frame, providing both rigidity and corrosion resistance. Three mass discs can be clamped to the shaft via precision chucks and moved to any position along its length using ball-bearing supports.

The servo exciter motor, controlled digitally, generates precise torsional vibrations with selectable amplitudes. Users can explore resonance behavior by varying frequency and observing system response. 

This setup supports real-time monitoring of torsional amplitude through optional data acquisition systems or traditional oscilloscopes. The high level of accuracy, modular flexibility, and real-world applicability make the VibranoX 10 a top-tier choice for universities and research facilities looking for durable and intelligent Vibration Technology Lab Equipment.

Why Choose SCIENTICO?

• Over 30 years of experience in engineering lab manufacturing

• In-house design, R&D, and customization for your curriculum needs

• ISO 9001:2015 Certified, CE Marked, and MSME Registered

Forces in Reciprocating Engines – VibranoX 12 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO proudly introduces the VibranoX 12 – Forces in Reciprocating Engines Apparatus, a comprehensive experimental unit designed to study mass forces and vibrations in reciprocating engines. This advanced system allows users to simulate and analyze different crank arrangements in single-, two-, and four-cylinder configurations, making it ideal for mechanical and automotive engineering labs.

As part of our innovative VibranoX series, this high-precision system supports real-time force measurement using strain gauge-based load cells. It demonstrates the generation and interaction of first and second order mass forces, torsional moments, and vibration behavior during engine operation.

Trusted worldwide as a leading Vibration Technology Lab Equipment Manufacturer, SCIENTICO has engineered this unit to meet international academic standards, offering robust performance, safety, and data acquisition compatibility.

Experiments You Can Perform:

• Study of oscillating and rotating masses in reciprocating engines

• Comparison of crank arrangements:

  • Four-cylinder (symmetrical and asymmetrical)

  • Two-cylinder (180° crank offset)

  • Single-cylinder

• Analysis of mass force effects based on:

  • Engine speed

  • Piston mass variation

  • Crank angle offset

• Investigation of:

  • First and second order mass forces

  • Free mass forces and moments

  • Real-time vibration monitoring using load cells

Technical Specifications:

• Four-cylinder engine model with transparent guard cover

• Motor speed: Adjustable from 100 to 3000 rpm

• Nominal power output: 80W

• Engine mounted on a load cell cantilever system

• Individual piston mass adjustment via securely fixed weights

• Crank angle adjustment: 0°, 90°, 180°, 270°

• Strain gauge-based load cells for real-time torque and force measurement

• Signal output compatible with oscilloscope or DAQ system

• Anti-vibration base mount

• Fully enclosed for safety while allowing visibility

• Supplied with: Tools, cables, piston weights, connectors, and manuals

• Includes comprehensive instruction manual with example results

Description:

The VibranoX 12 is an educational engine dynamics system designed around a four-cylinder reciprocating engine mounted on a load cell cantilever. The unit allows full control over crankshaft configuration, piston mass, and speed. It enables simulation of 1-, 2-, or 4-cylinder engines, making it a flexible and essential teaching tool in vibration analysis and dynamics.

Each crankshaft angle can be adjusted independently, allowing the study of different engine balancing scenarios. The system measures bending, torsional forces, and vibrations generated by the reciprocating masses using strain gauges mounted at key positions. The transparent casing ensures safe operation while allowing visibility of moving parts.

Engine speed is controlled electronically through a precision frequency generator, and values are digitally displayed. The output from the load cells can be analyzed via an oscilloscope or connected to a data acquisition system for detailed vibration analysis.

Brake & Load Unit – VibranoX 14 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO presents the VibranoX 14 – Brake & Load Unit, an essential module for introducing controlled torque loading in experimental setups involving vibration diagnostics and machinery condition monitoring. As part of the high-performance VibranoX series of Vibration Technology Lab Equipment, this unit enhances practical training by enabling realistic simulation of operating conditions in mechanical systems.

This load unit is specifically engineered for integration with SCIENTICO’s machinery diagnostic training system, including experiments involving gear mechanisms, electric motors, and rotational systems. The core of the unit is a magnetic particle brake, which provides precise, smooth, and variable braking torque, accompanied by a dedicated digital display and control unit.

Developed by a leading Vibration Technology Lab Equipment Manufacturer, VibranoX 14 empowers students and professionals to simulate dynamic load conditions, facilitating vibration studies that mimic real-world machine behavior.

Experiments You Can Perform:

• Creation of adjustable braking torque in mechanical systems

• Simulation of load conditions in vibration and fault analysis

• Observation of vibration signatures under variable torque

• Real-time effect of loading on gears, shafts, and motors

• Operation in two distinct torque and speed ranges using integrated belt drive

• Study of heat dissipation and thermal management in braking systems

Technical Specifications:

• Integrated magnetic particle brake with quick-mount frame

• Electronic display and control unit with exciter current readout

• Potentiometer-based torque adjustment for precise control

• Two operating ranges via integrated belt drive

• Overheat protection system with fan-based cooling

• Designed for mounting on slotted base plate of diagnostic training setups

• Free shaft design for flexible coupling with other rotating systems

• Energy dissipated as heat and ventilated using built-in fan system

• Ideal for use with gear test rigs, motor setups, and condition monitoring kits

Description:

The VibranoX 14 – Brake & Load Unit is a powerful add-on designed to simulate real-time torque-based loads in machinery diagnostic and vibration training systems. It allows users to apply variable torque using a magnetic particle brake, enabling detailed analysis of vibration responses under operational stress.

The system includes a digital control/display unit that provides accurate exciter current readings, which directly correlate to applied braking torque. A potentiometer allows fine-tuning of the braking load, making the system suitable for a wide range of educational and research experiments.

With an integrated belt drive, the unit offers two selectable torque and speed ranges, significantly expanding the experimental possibilities. Its modular frame ensures fast and easy mounting on a variety of lab benches or test rigs, especially those in SCIENTICO’s VibranoX series.

A built-in cooling fan system prevents overheating during continuous operation, and temperature protection features ensure long-term reliability. This unit is ideal for mechanical engineering departments, polytechnic institutes, and advanced vibration labs seeking hands-on tools for dynamic system testing.

Bifilar and Trifilar Apparatus – VibranoX 05 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO introduces the VibranoX 05 – Bifilar and Trifilar Apparatus, a versatile and precision-built setup for studying pendulum oscillations and calculating the center of inertia of various bodies. Designed for advanced experimental learning, this wall-mounted unit is part of the globally trusted VibranoX series—an exclusive range of high-quality Vibration Technology Lab Equipment.

This apparatus enables in-depth exploration of oscillatory motion using bifilar and trifilar suspensions, where bodies such as rectangular bars, solid cylinders, and hollow cylinders are suspended and set into oscillation. Engineered with stainless steel components and rapid suspension adjustment features, the VibranoX 05 meets the practical needs of mechanical labs in engineering colleges, technical universities, and research institutions.

As a leading Vibration Technology Lab Equipment Manufacturer, SCIENTICO guarantees exceptional build quality, academic accuracy, and long-term durability with every unit.

Experiments You Can Perform:

• Study of bifilar pendulum oscillations in a planar system

• Study of trifilar pendulum oscillations in a rotary system

• Determination of the center of inertia for:

  • A rectangular bar

  • A solid disk cylinder

  • A hollow disk cylinder

• Understanding mathematical pendulum dynamics through oscillation periods

Technical Specifications:

• Wall-mounted apparatus for bifilar and trifilar suspension experiments

• Suspension cord length adjustable up to 2000 mm

• Equipped with quick-action clamps for cord length variation

• High-strength stainless steel bar, solid disk, and hollow disk

• Rigid mounting hooks for secure and stable suspension

• Allows both translational and rotational oscillation modes

• Ideal for analyzing inertial properties and mass distribution effects

• Compact and user-friendly design with durable finish

Description:

The VibranoX 05 demonstrates oscillatory behavior using a bifilar or trifilar setup. A stainless steel rectangular bar, a solid cylindrical disk, and a hollow disk are individually suspended from the unit using cords. These cords can be easily and securely adjusted in length using quick-action clamps, enabling precise tuning of oscillation conditions.

In bifilar mode, the bar undergoes translational oscillation, simulating the motion of an ideal mathematical pendulum. In trifilar mode, the disks act as rotary pendulums, oscillating about their vertical axes. These experiments allow students to derive key physical properties such as the center of inertia and oscillation period, enhancing their understanding of real-world mechanical systems and structural dynamics.

Why Choose SCIENTICO?

• 30+ Years of Manufacturing Excellence in engineering lab equipment

• In-house R&D, customization, and production capabilities

• ISO 9001:2015 Certified, CE Marked, and MSME Registered

• Reliable Vibration Technology Lab Equipment Exporter to 35+ countries

• Trusted by engineering colleges, polytechnic institutes, and universities globally

• End-to-end technical support and user-friendly manuals included

Spring Mass Vibration System – VibranoX 09 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO proudly presents the VibranoX 09 – Spring Mass Vibration System, an advanced educational unit designed to study free and damped vibrations in a vertical spring-mass configuration. As part of the premium VibranoX series, this apparatus serves as a crucial component of academic and research-level Vibration Technology Lab Equipment, helping students understand key principles of oscillatory motion, damping behavior, and spring dynamics.

Developed by SCIENTICO—India’s trusted Vibration Technology Lab Equipment Manufacturer—this system is ideal for practical implementation of Hooke’s Law, natural frequency analysis, and damping observations. The unit is rugged, modular, and easy to operate, making it suitable for engineering colleges, technical institutes, and vibration research labs.

Experiments You Can Perform:

• Verification of Hooke’s Law using a helical tension spring

• Determination of spring stiffness

• Measurement of the natural frequency of a vertical undamped system

• Observation of the effect of varying mass on oscillations

• Study of damping effects using an oil-based damper

• Investigation of how damping influences amplitude and frequency

Technical Specifications:

• Benchtop apparatus for vertical spring mass vibration experiments

• Helical tension spring suspended from a rigid upper frame

• Cradle with low-friction bearings for smooth vertical motion

• Calibrated slotted weights to vary oscillating mass

• Adjustable screw mechanism for setting spring starting position

• Cradle travels along precision vertical guide rods

• Optional oil-based damper for controlled damping analysis

• Rotating drum recorder for capturing displacement-time traces

• Free and damped oscillation modes available

• Supplied with a comprehensive technical manual for instruction

Description:

The VibranoX 09 – Spring Mass Vibration Apparatus is engineered for the precise study of vertical oscillatory motion under spring force and external damping. The setup features a high-strength bench-mounted base that holds two guide rods vertically. A steel cradle, suspended by a tension spring, moves up and down these rods with minimal friction due to precision ball bearings.

An adjustable screw mechanism at the top allows for pre-tensioning of the spring, thereby enabling the user to control the system’s initial position. The cradle itself serves as the oscillating body, and additional calibrated weights can be mounted on it to observe how varying mass affects frequency and damping.

For recording, the vertical motion of the cradle is mechanically transferred to a rotating drum recorder with paper, producing clear displacement-time traces. The system can be switched from free vibration mode to damped vibration simply by engaging the oil damper, enabling comprehensive exploration of real-world vibration damping.

This apparatus reflects SCIENTICO’s commitment to academic precision, durability, and functionality, solidifying its role as a premium Vibration Technology Lab Equipment Exporter to clients around the world.

Damage to Gears Kit – VibranoX 13 | SCIENTICO | Vibration Technology Lab Equipment

SCIENTICO introduces the VibranoX 13 – Damage to Gears Kit, an advanced experimental module for the study of gear failure diagnostics through vibration analysis. Specially designed for engineering and technical training, this apparatus helps students and professionals identify gear defects by evaluating vibration behavior under various operating conditions. Part of the trusted VibranoX series, this unit offers real-world simulation of gear damage in both spur-toothed and helical gear systems.

As a recognized Vibration Technology Lab Equipment Manufacturer, SCIENTICO has developed this system to meet the growing demand for machinery diagnostic training tools. The unit features damaged and undamaged gear sets, a transparent housing with sensor access, and support for both grease and oil lubrication, offering a complete platform for studying gear vibration signals and their frequency spectra.

Experiments You Can Perform:

• Identification of gear damage through vibration signature analysis

• Comparison of vibration behavior in spur-toothed and helical gears

• Locating gear faults and interpreting frequency spectra

• Influence of center distance and backlash on vibration signals

• Impact of lubrication type (grease vs. oil) on system performance

• Real-time vibration monitoring using a computerized vibration analyzer

• Application of dynamic loads via an optional brake and load unit

Technical Specifications:

• Gear test rig with two-shaft gear housing

• Includes:

  • 2 damaged gear sets

  • 2 undamaged gear sets

  • Spur-toothed and helical gear configurations

• Transparent housing cover for visual inspection

• Housing with sensor holes for vibration measurement

• Supports lubrication with grease or oil

• Adjustable bearing plates for studying center distance and backlash

• Mounts onto base plate of machinery diagnostic training system

• Compatible with:

  • Brake and load unit (optional)

  • Computerized vibration analyzer with sensors and software

Description:

The VibranoX 13 – Damage to Gears Kit is a comprehensive training tool that simulates common gear failures found in industrial machinery and allows for detailed vibration analysis using standard diagnostic tools. The setup includes multiple gear configurations, enabling the study of both healthy and defective gear systems under controlled lab conditions.

The transparent gear housing allows users to visually observe gear interactions while simultaneously recording vibration data using sensors installed through the provided sensor ports. This allows for real-time monitoring of changes in vibration signals caused by defects such as chipped teeth, wear, or incorrect alignment.

Adjustable bearing plates make it possible to experiment with different center distances and gear backlash settings, which significantly influence system dynamics. The apparatus is designed for use with a computerized vibration analyzer, enabling advanced spectral and time-domain analysis of gear faults.

This unit is ideal for engineering students, maintenance professionals, and R&D teams seeking hands-on experience in gear diagnostics and vibration monitoring,