Structural Mechanics
The MST17 truss influence line testing experimental device is a specialized testing equipment used in structural mechanics experiments to study the axial force variation of each member of a planar truss structure under moving loads.
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Product Introduction
The MST17 truss influence line testing experimental device is a specialized testing equipment used in structural mechanics experiments to study the axial force variation of each member of a planar truss structure under moving loads.
Dynamic load simulation and influence line generation, using a mobile load system to simulate the movement of unit loads along the span of the truss, supporting concentrated loads, uniformly distributed loads, and multi-point loading, adapting to different truss topologies, real-time collection of stress data at each node using electrical measurement method, generating influence line curves, and comparing them with theoretical values.
Experimental feature
1
Draw the influence line of axial force on truss members
2
Demonstrate the principle of indirect loading
3
Determine the most unfavorable load location
4
Verify the section method and node method
Product Attributes
|
Product Model |
MST17 |
Product Name |
Experimental device for testing the influence lineof truss |
|
Main Materials |
Aluminum alloy, stainless steel |
Specifications |
≤1000×400×1000mm |
|
Product Weight |
≤30kg |
Operating Environment |
Room temperature, relative humidity ≤ 85% |
|
Input Power Supply |
Single phase three wire, 220V ± 5%, 50Hz/60Hz | ||
|
Required Modules |
None |
Optional Modules |
None |
FAQ
Is your company a manufacturer or a trading company?
We are a direct source manufacturer with independent R&D, production and quality inspection workshops, and have years of expertise in the university laboratory equipment sector.
What payment methods are supported for overseas orders?
We accept T/T (Telegraphic Transfer) and irrevocable sight L/C (Letter of Credit). Formal commercial or proforma invoices are issued for all orders, with a transparent and traceable process.
What is the production and delivery cycle for the equipment?
Standard models: 45-60 days. Expedited production is available for urgent orders with priority scheduling, and the exact lead time is negotiable.
Do you support product customization?
Customization, OEM and ODM services are available. We can adjust parameters, structure, size and functions as required, and accept private labeling production.
How do you ensure the safe transport of the equipment?
Export-grade triple shockproof and moisture-proof packaging (shockproof foam + thickened carton + plywood wooden case) with warning labels attached.
Does the product come with a warranty? Are spare parts included?
All products come with a 2-year free original factory warranty, and common wearing parts are provided free of charge during the warranty period.
Overseas After-Sales Support:
• 7×24h remote technical support and free operation training with one-on-one engineer guidance;
• Free urgent air shipment of replacement parts for non-human-induced quality defects within the warranty period;
• Lifetime technical consultation and cost-price spare parts supply after warranty;
• Bilingual manuals, operation videos and experiment guides are included for easy use by beginners.
How do you control product quality before shipment?
Strict three-level quality inspection is carried out before delivery:
1. Raw Material Inspection: Full inspection of core components to control precision;
2. In-Process Inspection: Special personnel monitor each process to avoid defects;
3. Final Shipment Inspection: Power-on testing and precision calibration, with official inspection reports issued; factory inspection and remote inspection are both supported.
Case Studies
In 2026, a new batch of compressed air energy storage teaching experimental equipment was successfully delivered, empowering universities with micro-newton technology for new energy teaching
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Micro Newton (Shandong) Technology Development Co., Ltd. successfully completed the delivery of the first batch of new energy teaching experimental equipment in 2026.
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