Vibrating Sample Magnetometer/VSM Manufacturer for Laboratory

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Vibrating Sample Magnetometer/VSM Manufacturer for Laboratory

Name: Vibrating Sample Magnetometer/VSM Manufacturer for Laboratory
Brand: Xiamen Dexing Magnet Tech. Co., Ltd.
SKU: 60389290852_1
Price: 1000.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Magnetic Property Analysis: Enables precise measurement of magnetic susceptibility, coercivity, and hysteresis loops in materials, ideal for characterizing ferromagnetic, paramagnetic, and diamagnetic substances.
Dynamic Testing Capabilities: Features a rotating sample mechanism to simulate real-world dynamic loads, allowing evaluation of material behavior under varying magnetic fields and temperatures.

Key features

1. Corrosion-Resistant Stainless Steel Construction

With a corrosion-resistant stainless steel body, you can ensure long-term durability in harsh laboratory environments. ~30% more resistant to chemical exposure than traditional aluminum models*.

2. Touchscreen-Driven Automation

With a programmable touchscreen interface, you can set multi-test presets for automated dynamic analysis, reducing manual setup time by ~40% compared to non-automated systems*.

3. Precision-Cooled Dynamic Testing

With a built-in cooling system and rotating test mechanism, you can maintain temperature stability and perform high-precision dynamic load tests, achieving ~25% higher accuracy than non-cooled models*.

4. Versatile Scenario Adaptability

With customizable test parameters and real-time data recording, you can seamlessly switch between research-grade material analysis and industrial quality control scenarios, offering a ~50% broader application range than standard testers*.

5. CE-Certified Safety Compliance

With CE certification, you can guarantee compliance with EU safety and performance standards, unlike uncertified competitors in the market.

Product details

The Vibrating Sample Magnetometer (VSM) is a high-precision material testing instrument designed for laboratory environments. Built with a robust stainless steel frame and advanced automation features, it enables dynamic load testing, real-time data monitoring, and temperature-controlled experiments. CE-certified for safety, it supports rigorous material analysis in research, quality control, and industrial applications.

Technical specifications

Feature	Specification	Application Scenario
Material Construction	Stainless steel frame, durable alloy	Withstands harsh laboratory environments
Dynamic Testing Mechanism	Rotating sample holder with adjustable speed	Evaluating material behavior under cyclic loads
Temperature Control	Integrated cooling unit (-20°C to 200°C)	Thermal stability testing of magnetic materials
Automation & Compliance	Digital interface, CE-certified	Automated data logging for ISO-standard reports

Customization guide

Adjustable parameters include rotational speed (50–2000 RPM), temperature range, and test duration to meet specialized requirements like high-temperature material analysis or low-speed fatigue testing.

Get inspired

With dynamic load testing capabilities, researchers can simulate real-world stress conditions. The precise temperature control system ensures accurate thermal analysis, while automation reduces human error in data collection.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Testing Precision	±1%	±0.5%	±0.1%*
Temperature Range	-10°C to 150°C	-20°C to 200°C	-50°C to 300°C
Automation Level	Manual input	Semi-automated	Fully automated
Data Output	CSV files	CSV/PDF with graphs	Real-time cloud sync

Supplier's note

Technical Breakthroughs:
- The rotating sample mechanism enables dynamic stress testing, 20% faster than traditional static methods.
- The -50°C to 300°C temperature range (Pro Model) exceeds industry benchmarks, supporting cryogenic and high-temperature research.
- CE certification ensures compliance with EU safety standards, reducing regulatory hurdles for global labs.
Version Selection Guide:
- Base Model: Ideal for educational labs or basic material screening.
- Advanced Model: Suitable for R&D teams needing mid-range precision and thermal flexibility.
- Pro Model: Best for industrial or aerospace applications requiring extreme precision (e.g., superconductivity research) and real-time data analysis.

With the Pro version’s expanded temperature range, researchers can test materials in cryogenic environments, critical for semiconductor development. Pair this with its ±0.1% precision to ensure reliability in high-stakes applications like aerospace component validation.

Frequently asked questions

Which VSM model is best suited for small laboratory spaces?
How do I maintain the rotating testing mechanism of the VSM?
Is the VSM’s material testing accuracy CE-certified?
Can the VSM test both ferromagnetic and paramagnetic materials?
Does the VSM comply with ISO standards for material testing?
How do I ensure the cooling system operates efficiently?
Can the VSM perform fatigue testing on dynamic samples?
What customization options are available for the VSM’s testing modes?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Precision Level	Material property analysis in R&D labs	Industry: ±1 Gauss (ISO 17025) ▲ Base: ±0.5 Gauss ▲ Advanced: ±0.1 Gauss (NIST traceable)	Ensures accuracy in critical measurements (e.g., magnetic susceptibility).	Advanced models may require longer calibration cycles.
Temperature Control	Thermal stress testing	Industry: Up to 50°C ▲ Base: Up to 80°C ▲ Advanced: Up to 120°C (with active cooling)	Enables testing of high-temperature materials (e.g., aerospace alloys).	Advanced models consume 30% more power due to cooling systems.
Automation Level	High-volume quality control	Industry: Manual ▲ Base: Semi-automated (pre-set protocols) ▲ Advanced: Fully automated (AI-driven analysis)	Reduces operator error and speeds workflows by 40%.	Advanced requires specialized training for setup and maintenance.
Sample Handling	Batch testing in labs	Industry: Single-sample ▲ Base: 3-sample carousel ▲ Advanced: 5-sample robotic arm	Processes 5× more samples per hour compared to manual setups.	Advanced models occupy 50% more floor space.
Certifications	Compliance in regulated industries	Industry: CE ▲ Base: CE + ISO 9001 ▲ Advanced: CE + ISO + NIST traceability	Advanced meets global standards for metrology labs (e.g., aerospace, defense).	Advanced certification adds 20% to upfront costs.
Noise Level	Use in shared lab environments	Industry: 55 dBA (louder than a conversation) ▲ Base: 48 dBA ▲ Advanced: 43 dBA (quieter than a refrigerator)	Minimizes disruption in open labs (e.g., universities, collaborative spaces).	Advanced cooling systems may limit heat dissipation in extreme tests.

Vibrating Sample Magnetometer/VSM Manufacturer for Laboratory

Vibrating Sample Magnetometer/VSM Manufacturer for Laboratory

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Stainless Steel Construction

2. Touchscreen-Driven Automation

3. Precision-Cooled Dynamic Testing

4. Versatile Scenario Adaptability

5. CE-Certified Safety Compliance

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which VSM model is best suited for small laboratory spaces?

How do I maintain the rotating testing mechanism of the VSM?

Is the VSM’s material testing accuracy CE-certified?

Can the VSM test both ferromagnetic and paramagnetic materials?

Does the VSM comply with ISO standards for material testing?

How do I ensure the cooling system operates efficiently?

Can the VSM perform fatigue testing on dynamic samples?

What customization options are available for the VSM’s testing modes?

Product comparison

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