The computer-controlled electro-hydraulic servo compression testing machine adopts a low-noise high-pressure oil pump system, ensuring stable operation with low noise performance comparable to imported equipment of the same type. It is suitable for long-term continuous operation and is widely used in building materials, road engineering, scientific research institutions, and quality inspection organizations.

Electro-Hydraulic Servo Compression Testing Machine

Model:TDYE-1000S-2

I. Product Introduction

The microcomputer-controlled electro-hydraulic servo pressure testing machine is a high-performance material testing device integrating mechanical, electrical, hydraulic, and instrumentation systems. The machine features a compact design, a rationally separated layout of the main unit and oil source, an attractive appearance, high stability, and a small footprint, facilitating laboratory installation and maintenance.

Reference or applicable standards: ISO 679, ASTM C39 / C39M, ASTM C109, ASTM E4

II. Functions and Applications

This equipment is primarily used for compressive strength testing of materials, and can be expanded to include various testing functions by selecting different fixtures:

1. Basic Testing Functions

Cement compressive strength test; Concrete compressive strength test; Rock compressive strength test

2. Extended Test Functions (with optional fixtures)

Concrete splitting tensile test;

Flexural test;

Static compressive elastic modulus test;

Lime-fly ash stabilized soil demolding and compaction test;

Aggregate crushing value test;

Concrete impermeability mold demolding test;

Compression and upset forging test of metallic materials

III. Structural Features

1. Two-column high-rigidity frame structure, stable and reliable.

2. Microcomputer closed-loop control system, automatic loading and automatic data acquisition.

3. Electric adjustment of the upper and lower pressure plate spacing, convenient operation.

4. Computer control system centrally installed in the main unit chassis, saving space.

5. Low-noise high-pressure oil source system, stable operation.

6. High-precision sensors ensure accurate and reliable test data.

7. Suitable for long-term continuous working environments.

IV. Technical Parameters

Maximum Test Force: 1000 kN

Accuracy Class of Testing Machine: Class 1

Relative Error of Test Force Indication: Within ±1%

Test Force Measurement Range: 1%～100% FS (No range division throughout)

Test force resolution: 1/350000 FS

Distance between columns: 500 mm

Distance between upper and lower pressure plates: 500 mm

Main unit structure: 2-column frame structure

Pressure plate adjustment method: Electric adjustment (maximum adjustment distance ≤ distance between upper and lower pressure plates)

Crossbeam movement speed: 230 mm/min

Pressure plate dimensions: Upper Φ290 mm, Lower 320×330 mm

Piston stroke: 100 mm

Platen displacement speed: 0–80 mm/min

Test force loading rate: 0.02%–2% FS/s

Cylinder control method: One-way cylinder

Main unit dimensions: 1100×700×2260 mm

Oil source dimensions: 700×600×1700 mm

Total power: 7.5 kW

Total weight: 2500 kg

V. Software and Control System (Optional Configuration)

Microcomputer Closed-Loop Control System (Force/Displacement/Deformation Control)

Real-time Curve Display (Force-Time, Force-Displacement, etc.)

Automatic Calculation of Maximum Force, Compressive Strength, etc.

Automatic Data Storage and Export (Excel/PDF)

Multi-Standard Test Mode Switching (ISO/ASTM)

Automatic Generation and Printing of Test Reports