A piezo-tribo imparting machine combines piezoelectric and tribological principles to modify material surfaces at micro/nanoscale and generate electricity through controlled mechanical forces. It features precision control of force, frequency (0–999 Hz), and motion, with components like electrodynamic actuator, load cell, accelerometer, gold-plated electrodes, EM shielding, and computerized data acquisition. It is widely used in material science, surface engineering, and nanomanufacturing for studying and enhancing material properties. 

A piezo-tribo imparting machine combines piezoelectric and tribological principles to modify material surfaces at micro/nanoscale and generate electricity through controlled mechanical forces. It features precision control of force, frequency (0–999 Hz), and motion, with components like electrodynamic actuator, load cell, accelerometer, gold-plated electrodes, EM shielding, and computerized data acquisition. It is widely used in material science, surface engineering, and nanomanufacturing for studying and enhancing material properties. 

A piezo-tribo imparting machine combines piezoelectric and tribological principles to modify material surfaces at micro/nanoscale and generate electricity through controlled mechanical forces. It features precision control of force, frequency (0–999 Hz), and motion, with components like electrodynamic actuator, load cell, accelerometer, gold-plated electrodes, EM shielding, and computerized data acquisition. It is widely used in material science, surface engineering, and nanomanufacturing for studying and enhancing material properties. 

A piezo-tribo imparting machine combines piezoelectric and tribological principles to modify material surfaces at micro/nanoscale and generate electricity through controlled mechanical forces. It features precision control of force, frequency (0–999 Hz), and motion, with components like electrodynamic actuator, load cell, accelerometer, gold-plated electrodes, EM shielding, and computerized data acquisition. It is widely used in material science, surface engineering, and nanomanufacturing for studying and enhancing material properties. 

The PTM-03 Film/Fiber Bending Test Machine is a horizontally cyclic stretching system with displacement control, capable of testing flat films and filaments with adjustable speed, bend angle (5°–90°), and temperature (up to 80°C).
It supports automatic and manual modes, features customizable stroke dimensions, gold-plated grip electrodes, and is widely used for piezoelectric and energy harvesting sensor development.

The PTM-04 Film/Fiber Stretching Test Machine is a horizontal cyclic stretching system designed for films and filaments, with displacement control, multiple grips, variable speed, and optional temperature control. It is widely used for piezoelectric and energy harvesting sensor development, and features automatic cyclic operation, 200 mm X-axis movement, 100 mm stretching length, enclosed heating chamber (up to 80°C), and gold-plated grip electrodes.

The TSM-01 Tribo Sliding Machine is a bi-directional cyclic sliding system designed for films and textiles, mainly used in tribo sensor development to create sliding motion for electricity generation and measurement. It offers variable speed, direction and displacement control, dual jaws and electrodes, 12V DC motor drive with gearbox, and customizable options such as bed size, displacement, temperature control, camera mount, and acrylic/RF shielding.

A cyclic textile friction tester measures a fabric’s friction, abrasion resistance, durability, coefficient of friction, and surface changes by subjecting it to repeated rubbing cycles under controlled load and speed. It includes a testing platform, load mechanism, friction measurement system, and control system, with key features such as 50 mm displacement, variable speed, programmable counter, auto cut, energy meter, and reset.

The HPM-07 Heat Press Machine is designed for PZT and piezoelectric sensor development, using dual heated beds (up to 250°C or more) and a pneumatic or hydraulic press to compact single or multiple polymer layers under controlled heat and pressure. It features separate temperature control for each bed, 50 mm Z-axis movement, customizable 250×250 mm bed size, PID controllers, 220V AC supply, and optional additions like a camera mount and bed rotation.With Timer conroll. 

A textile molten metal drop tester evaluates the protective performance of fabrics against molten metal splash by exposing samples to controlled molten metal droplets under set conditions of height, temperature, and angle. It measures key properties such as penetration resistance, thermal insulation, durability, and comfort, and features 300 mm drop height, gravity fall, variable speed and angle, adjustable crucible holder, energy meter, and direction control.

The PAM-06 Film/Fiber Stretching and Bending Test Machine is a horizontal cyclic stretching system designed for films and filaments, with displacement control, multiple grip mechanisms, and adjustable speed/temperature. It is mainly used for piezoelectric and energy harvesting sensor development, and supports manual and auto modes, with features like audio frequency generator, power control, electrodes, customizable volume, and IR/visual light source.

The Underwater Aquatic Piezo Test Setup is designed to simulate underwater wave and pressure conditions for testing and developing piezoelectric and energy harvesting sensors. It offers manual and automatic operation, customizable control parameters, and supports testing modes such as aquatic pressure, ultrasonic, wave guide, water pressure, and hydraulic pressure head. 

The VHS-02 Film/Fiber Heating Machine is a film heating system with controlled vacuuming, used for piezoelectric sensor development, energy harvesting applications, and flake transfer processes. It supports manual and auto operation, with features such as variable vacuum control, 70 mm Z-axis movement, 200 mm stretching length, heating up to 100°C, convection cooling, enclosed chamber heating, and display.

The VEP-01 Electromagnetic Polarizer is a portable dual-electromagnet device with precisely controllable magnetism, used to induce magnetic effects in solvents, polymers, and gelatin for sensor development and molecular polarization. It features individual control for each magnet, variable 30 mm electrode gap, customizable bed size, multiple pole configurations (N-N, N-S, S-N, S-S), and 220V AC power supply.

The DC High Current UPS (12V) is a premium, rechargeable power solution specifically engineered for high-precision environments, such as Piezo-Tribo experimentation and sensitive signal generation. Unlike standard power supplies, this unit is designed for electrically noise-less operation, ensuring that your data remains free from electromagnetic interference and signal artifacts. Housed in a durable, brushed stainless steel enclosure, it features a dual-line digital monitor for precise real-time tracking of voltage and current, alongside a smooth-action voltage regulator for granular control. Equipped with dual high-current DC output jacks and a heavy-duty toggle interface, this UPS provides the stable, ultra-clean energy required for precision laboratory applications where consistency and signal integrity are paramount.

Elevate your sustainable energy solutions with the Piezo-Tribo Energy Harvester and Storage system. This cutting-edge module bridges the gap between mechanical motion and usable electrical power, utilizing advanced piezoelectric and triboelectric effects to capture even the slightest vibrations and kinetic interactions. Engineered for high efficiency, the system seamlessly converts ambient energy into a steady charge, stored within an integrated capacitor network for real-time applications—as demonstrated by the high-intensity, pulsing LED indicator. Whether you are powering remote sensors, IoT devices, or exploring next-generation wearables, our harvester provides a robust, self-sustaining power source that eliminates the need for traditional battery replacements.

The Computerized Piezo Force Meter is a compact, wireless device designed for precise measurement of force and impact in real time. Utilizing advanced piezoelectric sensing technology, it converts mechanical stress into accurate electrical signals, enabling high-speed data acquisition and live waveform visualization. Its portable design, combined with WiFi connectivity, allows seamless monitoring through mobile or computer interfaces, making it highly suitable for dynamic testing environments. With a force limit of 30 N, the system is optimized for applications such as sports analysis, vibration monitoring, shock detection, crash testing, manufacturing quality control, and research laboratories. Overall, it offers a reliable, cost-effective, and intelligent solution for transforming physical impacts into meaningful data insights. 

Accelerate your new material development with the most versatile desktop solution for researchers and engineers. 

Dual-Orientation Support: Choose between Horizontal (standard extrusion) or Vertical (gravity-assisted for sensitive materials) configurations to suit your specific research needs.

Localized Material Development: Transform powders or granules into 1.75mm or 2.85mm filament in minutes, enabling rapid iteration of proprietary material blends.

Research-Grade Precision: Engineered with a high-torque drive and stable thermal zones up to 220°C+, ensuring uniform flow for even the most demanding engineering plastics.

Exclusive Availability: We provide the only professional-tier, compact filament extrusion solution optimized for the Indian research and development sector.