FLEXURAL STRENGTH TESTING MACHINE
Technical Specifications
Load Capacity
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Range: 10 kN to 300 kN
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Suitable for concrete beams, tiles, blocks, polymers, composites
Loading Type
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Three-point bending
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Four-point bending
Control System
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Manual / Motorized / Servo-controlled
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Pace rate control available
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Closed-loop feedback system (in advanced models)
Display
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Digital load indicator
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Touchscreen controller (computerized models)
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Real-time load vs deflection graph
Accuracy
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±1% or better of indicated load
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Calibrated load cell system
Loading Rate
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Adjustable loading rate
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Standard compliant loading speed control
Test Span Adjustment
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Adjustable support span
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Roller support fixtures
Drive Mechanism
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Hydraulic power pack or electromechanical screw drive
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Servo motor (in advanced systems)
Data Output
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Software-based data acquisition
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Test reports generation
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USB / PC connectivity
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Automatic peak load capture
Safety Features
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Overload protection
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Emergency stop
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Limit switches
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Guard enclosure
Standards Compliance
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ASTM C78 / ASTM D790
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IS 516
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ISO standards for flexural testing
A Flexural Strength Testing Machine is used to determine the bending strength and flexural properties of materials such as concrete, cement, ceramics, plastics, composites, and building materials. The machine applies a controlled load at the center or at two points of a test specimen supported at both ends, measuring the material’s resistance to bending until failure.
It is widely used in construction labs, R&D centers, quality control laboratories, and educational institutions to evaluate material performance under flexural stress conditions.
Applications
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Concrete beam testing
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Cement and mortar prism testing
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Ceramic and tile strength testing
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Plastic and polymer flexural testing
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Composite material bending test
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Building material quality control
Related products
TILE ABRASION TESTING MACHINE
Technical Specifications
| Feature | Specification / Option |
|---|---|
| Model Type | Single-head / Dual-head abrasion tester |
| Test Standard Compliance | ISO 10545-7, EN 14157, ASTM C1243, DIN standards |
| Number of Abrasive Heads | 1 or 2 heads |
| Turntable Diameter | ~300–400 mm (industry varies) |
| Speed Control | Variable speed (e.g., 50–150 rpm) |
| Load Weights | Calibrated weights (typically up to 1,000 g or more per head) |
| Abrasive Medium | Standard abrasive wheels/discs or sand/rubber pads |
| Test Cycle Timer | Digital timer, programmable up to several hours |
| Display | Digital/LED display for time, speed, and test status |
| Power Supply | 220–240 V AC, 50/60 Hz (or 110 V option) |
| Frame Material | Sturdy mild steel / powder-coated structure |
| Sample Size Accommodation | Large enough platform to hold standard tiles (e.g., up to 300 × 300 mm or larger) |
| Safety Features | Emergency stop, protective covers |
| Control Mode | Manual / semi-automatic / PLC touch screen (depending on model) |
| Data Output | Manual recording or digital export (optional) |
SERVO CONTROLLED UTM
📊 Typical Technical Parameters
(Specifications vary by model & capacity: 100 kN–2000 kN or more)
| Parameter | Typical Range / Value |
|---|---|
| Load Capacity | 100 kN, 200 kN, 400 kN, 600 kN, 1000 kN, 2000 kN etc. |
| Load Accuracy | ±1 % or better |
| Test Speed | 0.001 to 500 mm/min (configurable) |
| Position Resolution | 0.01 mm or better |
| Control Modes | Load, strain/elongation, displacement, hold |
| Measurement Feedback | Load cell, encoder/extensometer |
| Data Output | Real-time graph, exportable results |
DIGITAL BURSTING STRENGTH TESTER
Technical Specifications
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Measurement Range: 0–100 kg/cm² / 0–1000 kPa (customizable)
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Display: High-resolution digital LCD / LED display
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Accuracy: ±1% of full scale
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Pressure System: Hydraulic pressure with rubber diaphragm
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Clamping Method: Manual / Pneumatic clamping (optional)
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Specimen Diameter: As per standard (e.g., 30.5 mm / 50 mm)
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Pressure Application Rate: Adjustable, as per standard requirements
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Control System: Microprocessor-based digital controller
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Peak Hold Function: Yes (maximum burst value capture)
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Units Displayed: kg/cm², kPa, PSI (selectable)
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Power Supply: 220–240 V AC, 50 Hz
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Standards Compliance:
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IS: 1060
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TAPPI T403
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ISO 2758 / ISO 2759
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ASTM D3786 / ASTM D3787
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Optional Features:
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Computer interface (RS-232 / USB)
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Bursting index calculation
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Data storage & printer output
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VIBRATING TABLE
Key Features
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Heavy-duty fabricated steel construction
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Adjustable vibration frequency and amplitude
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Uniform vibration across table surface
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Low noise and energy-efficient operation
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Anti-vibration mounts for floor protection
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Manual / digital / PLC control options
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Maintenance-free vibrator motor
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Custom table size and load capacity available
Applications
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Concrete cube and block compaction
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Precast concrete products
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Foundry sand compaction
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Laboratory material testing
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Pharmaceutical and chemical compaction
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Packaging and container settling
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Soil and aggregate testing
Technical Specifications (Typical)
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Table Size: Customizable
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Load Capacity: 50 kg to 2000 kg (or higher)
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Vibration Frequency: 0–6000 vibrations/min
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Amplitude: Adjustable
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Motor Type: Unbalanced / Electromagnetic
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Power Supply: 230V / 415V, 50 Hz
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Control: Manual / Digital / PLC
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Mounting: Spring or rubber isolation
PLASTIC IMPACT TESTER
Types of Plastic Impact Testers
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Izod Impact Tester
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Charpy Impact Tester
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Combined Izod & Charpy Impact Tester
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Pendulum Type Impact Tester
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Digital / Computerized Impact Tester
Applications
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Thermoplastics and thermosetting plastics
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PVC, PE, PP, ABS, Nylon, Polycarbonate
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Plastic sheets, molded components
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Automotive plastic parts
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Electrical & electronic plastic components
Technical Specifications (Typical)
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Impact Energy Range: 1 J, 2.75 J, 5.5 J, 11 J, 22 J
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Pendulum Capacity: Up to 25 Joules
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Display Type: Analog / Digital / Computerized
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Test Method: Izod / Charpy
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Resolution: 0.01 J
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Specimen Size: As per ASTM / ISO standards
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Clamp Type: Vice-type specimen clamp
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Machine Body: Heavy-duty cast iron / steel frame
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Safety Guard: Full protective enclosure
Standards Supported
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ASTM D256
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ISO 180
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ISO 179
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BS EN standards
Salient Features
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High accuracy pendulum mechanism
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Easy pendulum change for multiple energy ranges
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Digital energy loss calculation
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User-friendly operation
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Robust and vibration-free construction
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Calibration certificate traceable to national standards
Accessories (Optional)
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Notching machine for plastic specimens
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Extra pendulums (different energy ranges)
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Computerized data acquisition software
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Safety enclosure
DIGITAL HARDNESS TESTING MACHINE
Common Types
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Digital Rockwell Hardness Testing Machine
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Digital Brinell Hardness Testing Machine
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Digital Vickers Hardness Testing Machine
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Portable Digital Hardness Tester (Leeb type)
Key Features
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Digital LCD/LED display
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Automatic load application & dwell time
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High accuracy & repeatability
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Direct hardness value display (HRC, HRB, HB, HV, etc.)
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Data storage & USB/PC connectivity (optional)
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Conforms to ASTM / ISO / IS standards
Typical Applications
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Quality control labs
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Heat treatment shops
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Foundries & forging units
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R&D laboratories
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Engineering colleges & testing labs
COMPUTERIZED TENSILE TESTING MACHINE
A Computerized Tensile Testing Machine (CTTM) is used to measure the mechanical properties of materials by applying a controlled tensile (pulling) load and recording the response digitally.
What it does
It determines properties such as:
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Tensile strength
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Yield strength
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Elongation (%)
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Reduction in area
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Young’s modulus (with extensometer)
All results are captured, displayed, and stored via computer-based data acquisition software.
Main components
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Loading Frame
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Rigid two- or four-column structure
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Driven by servo motor / AC motor / hydraulic system
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Grips & Fixtures
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Wedge grips (manual or hydraulic)
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Suitable for flat, round, wire, or threaded specimens
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Load Cell
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High-accuracy force measurement (typically Class 1 or better)
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Crosshead & Drive System
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Precise speed control for strain-rate–dependent tests
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Extensometer (optional but recommended)
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For accurate strain and modulus measurement
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Computer & Testing Software
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Real-time load–elongation / stress–strain curves
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Automatic calculation of results
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Report generation and data export
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Typical capacities
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1 kN – 100 kN → plastics, rubber, wires, thin metals
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100 kN – 600 kN → structural steel, rebars, plates
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Higher capacities available in hydraulic models
Materials tested
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Metals (steel, aluminum, copper, rebars)
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Plastics & polymers
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Rubber & elastomers
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Wires, cables, fasteners
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Composites and sheets
Standards supported
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ASTM: A370, E8, D638, D412
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ISO: 6892, 527
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IS: 1608, 1828
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BS / DIN standards (as required)
Key advantages
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High accuracy and repeatability
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Fully automated testing & reporting
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Easy calibration and compliance
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Suitable for R&D, QA/QC, and production labs
Optional features
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Video extensometer
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Temperature chamber (hot/cold testing)
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Automatic hydraulic grips
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Networked data storage
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Customized test methods
If you want, I can help you with:
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Technical specifications for a particular capacity
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Comparison: electromechanical vs hydraulic
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Tender / purchase specification
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Brochure-style product description
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Price range in India
DIGITAL TENSILE TESTING MACHINE
What Is a Digital Tensile Testing Machine?
A Digital Tensile Testing Machine is an electromechanical device used to measure how materials behave under tension — that is, how much force they can withstand before they stretch or break. It digitally records key parameters like force, elongation, and strength, and displays these on a screen or computer interface for analysis.
🧪 How It Works
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Specimen Mounting
A sample (metal, plastic, rubber, textile, etc.) is gripped between the machine’s upper and lower fixtures. -
Tension Application
The machine pulls the specimen apart at a controlled speed using a motor and crosshead mechanism. -
Data Capture
As tension increases, digital sensors (usually load cells) record force versus elongation. Modern machines often interface with software for real-time graphs and data export. -
Failure & Analysis
Testing continues until the material breaks. The machine then reports properties such asultimate tensile strength, yield strength, elongation, and modulus of elasticity.
📊 Typical Features
✅ Digital & Computerized Readouts
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Real-time display of force, displacement, and elongation.
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Many machines provide computer interfaces for storing and analyzing test results.
✅ Precision Sensors
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High-sensitivity load cells and digital encoders ensure accurate measurements.
✅ Safety & Protection
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Limit switches and overload protection safeguard both the specimen and the machine.
✅ Variable Speed Control
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Test speeds can often be varied based on material type and test standards.
✅ Standards Compliance
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Machines can be designed to meet ASTM, ISO, and IS standards depending on industry requirements.
🏭 Common Applications
Digital tensile testers are used in:
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Industrial quality control (metals, plastics, elastomers)
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R&D laboratories (new materials, composites)
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Automotive & aerospace sectors (ensuring material safety)
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Textile and packaging industries (fiber and film testing)
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Educational and research institutions
🔍 What Results You Get
After a test, you typically get:
| Property | Meaning |
|---|---|
| Tensile Strength | Highest stress the material withstands before breaking |
| Yield Strength | Stress at which material begins to deform permanently |
| Elongation at Break | How much the material stretched before breaking |
| Modulus of Elasticity | Material stiffness measured from stress-strain data |
🛠 Buying Considerations
If you’re looking to purchase one:
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Load Capacity: Choose based on maximum force you need to test (e.g., 500 N vs. 5000 kgf).
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Display Type: Digital panel vs. computer-integrated software.
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Accuracy & Standards: Verify compliance with relevant testing standards (ASTM, ISO, etc.).
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Accessories: Special grips or fixtures for different materials enhance flexibility.
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