Digital hydraulic universal material testing machine

1、 Equipment Definition and Core Positioning: The price of the digital hydraulic universal material testing machine (also known as the electro-hydraulic servo hydraulic universal testing machine) is a universal material mechanics testing equipment that uses a hydraulic system as its core power support, integrates high-definition LCD display terminals and digital measurement and control technology. With its stable and reliable hydraulic power output capability and high-precision digital measurement and control system, this equipment can widely adapt to the diverse mechanical performance testing needs of various materials such as metals and non metals. It has become a core equipment for quality control, raw material inspection, and scientific research experiments in multiple industries such as construction, machinery, and rubber. It combines practicality and professionalism.

1、 Equipment definition and core positioning

Price of digital hydraulic universal material testing machine(also known as electro-hydraulic servo hydraulic universal testing machine), is a universal material mechanics testing equipment with hydraulic system as the core power support, integrated high-definition LCD display terminal and digital measurement and control technology. With its stable and reliable hydraulic power output capability and high-precision digital measurement and control system, this equipment can widely adapt to the diverse mechanical performance testing needs of various materials such as metals and non metals. It has become a core equipment for quality control, raw material inspection, and scientific research experiments in multiple industries such as construction, machinery, and rubber. It combines practicality and professionalism.

2、 Scope and application scenarios

Price of digital hydraulic universal material testing machineThe application covers multiple fields, with core adaptability to various materials such as building materials, steel, steel bars, steel wires, cement, concrete, plastics, waterproofing membranes, etc. It can efficiently complete basic mechanical testing projects such as tension, compression, bending, and shear. In industrial production scenarios, it can meet the efficient demands of raw material incoming inspection and finished product factory inspection; In the field of scientific research, it can support research institutions to deeply explore the mechanical properties of materials, provide key data support for industry technology research and quality control, and adapt to the needs of multi scenario detection.

3、 Structural Design and Space Adjustment

The host adopts a stable architecture design with two columns and two screws, combined with a layout of oil cylinders placed below, scientifically dividing the test area: a dedicated tensile test space is above the equipment, and a compression and bending test area is planned between the lower crossbeam and the workbench. The reasonable spatial layout greatly facilitates the clamping operation of various samples. The lower crossbeam is driven by a motor, reducer, chain drive, and screw pair, which can flexibly adjust the size of the test space according to the length specifications of the sample. The adjustment accuracy is high and the operation is convenient, making it easy to adapt to the testing needs of different sizes of samples and improve the testing efficiency.

4、 Core functions and data processing

The functional design of this device combines universality and scalability: under the basic configuration, it can complete tensile, compression, bending, shear tests for metal materials and compression tests for non-metallic materials; By installing specialized accessories, the performance testing of special components such as chains and steel wire ropes can be expanded, achieving the effect of "one machine for multiple uses" and effectively reducing the equipment investment cost of enterprises.

In terms of data presentation and processing, the high-definition LCD force measuring instrument equipped on the equipment can display key data such as the test force time curve, instantaneous force value, peak force, etc. in real time, accurately capturing the force value parameters corresponding to the material yield point. After the operator inputs the basic parameters of the sample, the equipment can automatically calculate core mechanical indicators such as tensile strength and yield strength. At the same time, it supports printing and outputting test results, meeting practical work needs such as data retention and report submission, and improving data management efficiency.