Product Details:
| Place of Origin: | XRF Spectrometer Manufacturer |
| Brand Name: | VRAY |
| Certification: | ISO CE GOST |
| Model Number: | VR-H5 |
Payment & Shipping Terms:
| Minimum Order Quantity: | 1 Set |
|---|---|
| Price: | 15000$-18000$ |
| Packaging Details: | Strong Case |
| Delivery Time: | 7 days |
| Payment Terms: | TT |
| Supply Ability: | 500 units per month |
A High-Precision Handheld XRF Spectrometer is an advanced, portable X-ray Fluorescence (XRF) device engineered to deliver exceptionally accurate and reliable elemental analysis of materials, typically in a non-destructive manner. Unlike standard handheld XRF units, "high-precision" signifies its capability to detect and quantify elements with superior accuracy (e.g., 0.03% for 9999 gold), often due to optimized detectors and excitation sources. These spectrometers, like the VRAY VR-H5, are crucial for detailed metal analysis in applications where even slight variations in composition can have significant implications, such as quality control, alloy verification, and precious metal valuation.
Model | VR-H5 |
Type | High-Precision Handheld XRF Spectrometer |
Price | 15000$-18000$ |
Machine size | 254 x 79 x 280mm |
Chamber size | 500 x 400 x 200mm |
N/G Weight | 1.6Kg(with battery)/ 7.1KG |
Test time | 30s |
Test range | Solid/liquid/ powder |
Detector type | Customized Si-Pin detector from USA |
Test accuracy | 0.03% for 9999 gold |
Excitation source | Up to 50KV/200μA, tube pressure and tube flow can be adjusted freely, Target Ag (standard), Au(optional), W(optional), Rh(optional) |
Sreen | 4.3" industrial resistive touch screen |
Memory | 32GB |
Heat dissipation | Equipped with a dedicated T-shaped radiator to dissipate the heat; no need to wait for cooling of |
Power supply system | Intelligent battery with MSBUS bus, complies with air dangerous goods transport regulations, one battery can work for about 8 hours |
Data transmission | USB or bluetooth |
Rated power | 100W |
Temperature | -20℃~50℃ |
The VRAY VR-H5 High-Precision Handheld XRF Spectrometer is a cutting-edge analytical instrument, meticulously engineered to provide exceptionally accurate and reliable metal analysis in a portable format. While named a "Handheld Gold Tester," its capabilities extend to a broad spectrum of metals, making it a versatile tool for demanding applications.
This High-Precision Handheld XRF Spectrometer delivers its superior accuracy through a Customized Si-Pin detector from USA, achieving an impressive 0.03% accuracy for 9999 gold and precise quantification of other elements. It features a powerful excitation source (up to 50KV/200μA, with adjustable tube pressure/flow and optional Au, W, Rh targets in addition to standard Ag), optimizing its performance for diverse metal analysis tasks. Despite its advanced capabilities, it remains remarkably lightweight at 1.6Kg (with battery) and ergonomically designed (254 x 79 x 280mm) for comfortable handheld operation. It provides incredibly fast results in just 30 seconds for solid, liquid, or powder samples. The intuitive 4.3" industrial resistive touch screen ensures easy navigation and clear data display. With 32GB of memory for extensive data storage and an intelligent battery providing approximately 8 hours of continuous work (air transport compliant), the VR-H5 is built for sustained, demanding use. Efficient heat dissipation (dedicated T-shaped radiator) means no need to wait for cooling of system. Data can be easily transferred via USB or Bluetooth. Operating reliably across a wide temperature range of -20℃ to 50℃, the VRAY VR-H5, priced between $15,000-$18,000, is the definitive High-Precision Handheld XRF Spectrometer for accurate and efficient metal analysis.
The VRAY VR-H5 High-Precision Handheld XRF Spectrometer is equipped with a comprehensive set of features emphasizing its precision and suitability for detailed metal analysis:
Customized High-Precision Detector: Features a Customized Si-Pin detector from USA, which is a key component enabling its high-precision capabilities, delivering an outstanding 0.03% accuracy for 9999 gold and precise quantification of other elements across various metal alloys.
Optimized Excitation Source: Equipped with an X-ray tube offering up to 50KV/200μA, with tube pressure and flow that can be adjusted freely. The availability of multiple target options (Ag standard, Au, W, Rh optional) allows for superior excitation of specific elements, crucial for high-precision metal analysis.
Rapid Analysis Speed: Delivers quick and accurate results in just 30 seconds, combining high-precision with efficiency, vital for quick decision-making in metal analysis.
Versatile Sample Compatibility: Capable of analyzing solid, liquid, and powder samples, broadening its applicability across different forms of materials encountered in comprehensive metal analysis.
Lightweight & Ergonomic Design: Weighing only 1.6Kg (with battery) and featuring a compact, ergonomic design, it minimizes user fatigue during prolonged high-precision testing.
Long-Lasting Intelligent Battery: Provides approximately 8 hours of continuous work on a single charge, ensuring reliable power for extended metal analysis sessions without interruption.
Efficient Heat Dissipation: Incorporates a dedicated T-shaped radiator, allowing for continuous operation without overheating or requiring cool-down periods, maintaining performance during intensive high-precision tasks.
Durable Industrial Resistive Touch Screen: Features a 4.3" industrial resistive touch screen for intuitive navigation and clear, precise display of analytical results.
Ample Data Storage: Includes 32GB of memory for extensive storage of high-precision test results, spectra, and calibration data, facilitating comprehensive record-keeping.
Flexible Data Transmission: Supports data transfer via USB or Bluetooth, enabling easy sharing, reporting, and integration of metal analysis data with other systems.
Wide Operating Temperature Range: Functions reliably from -20℃ to 50℃, ensuring consistent high-precision performance in various environmental conditions.
The High-Precision Handheld XRF Spectrometer (VRAY VR-H5) is invaluable for applications where detailed and accurate metal analysis is critical:
Precious Metal Valuation & Verification: For jewelers, pawnshops, and gold buyers who need exact karat determination (e.g., 9999 gold accuracy) and identification of all alloying elements to ensure accurate valuation and prevent fraud.
Quality Control in Metal Fabrication: Essential for Positive Material Identification (PMI) of incoming raw materials, verifying alloy grades (e.g., stainless steel, superalloys, brasses) in manufacturing processes, and final product quality assurance.
Scrap Metal Sorting (High-Value Alloys): For recyclers dealing with high-value scrap (e.g., aerospace alloys, catalytic converters, electronic waste) where precise elemental analysis ensures maximum recovery and proper segregation.
Research & Development: For materials scientists and engineers in R&D labs requiring rapid, non-destructive compositional analysis of new alloys or materials.
Geological & Mining Exploration: For on-site analysis of ore bodies, geological samples, and concentrates to precisely determine mineral content and optimize drilling.
Art & Archeology: For non-invasive analysis of artifacts, historical objects, and artworks to determine their elemental composition, aiding in authentication, conservation, and understanding material origins.
Environmental Monitoring: For high-precision screening of soils, water, or industrial waste for heavy metals and other contaminants.
Any industry requiring accurate, non-destructive elemental composition of metals and alloys in the field or lab.
The VRAY VR-H5 High-Precision Handheld XRF Spectrometer leverages several key technologies to achieve its superior metal analysis capabilities:
X-ray Fluorescence (XRF) Principle: The fundamental technology. The spectrometer emits primary X-rays, which excite atoms in the sample. These atoms then emit secondary (fluorescent) X-rays at characteristic energies unique to each element. The intensity of these fluorescent X-rays is proportional to the concentration of the element.
Customized Si-Pin Detector from USA: This is a crucial component for its high-precision. Si-Pin (Silicon PIN Diode) detectors are renowned for their excellent energy resolution, allowing the spectrometer to clearly differentiate between the characteristic X-rays of closely spaced elements, leading to highly accurate quantification, particularly for precious metals and their common alloys.
High-Power X-ray Tube with Adjustable Parameters: The excitation source (up to 50KV/200μA) is powerful, ensuring strong X-ray emissions for robust signal generation. The ability to freely adjust tube pressure and tube flow allows for optimization of excitation conditions to target specific elements or element ranges (e.g., light vs. heavy elements) for enhanced precision in metal analysis.
Multiple Target Options (Ag, Au, W, Rh): The availability of different anode materials (targets) in the X-ray tube (Ag standard, Au, W, Rh optional) allows for the generation of optimized primary X-ray spectra. This is vital for selective excitation of specific elements, significantly improving detection limits and accuracy for particular applications in metal analysis.
Advanced Data Processing Algorithms: Sophisticated smart software algorithms analyze the raw X-ray spectra, correcting for matrix effects (inter-element interferences) and accurately quantifying elemental concentrations. These algorithms are key to delivering the high-precision results from the raw detector data.
Ergonomic and Rugged Design: While not a core "technology," the physical design ensures that the sensitive internal components (detector, X-ray tube) are protected in an industrial environment, ensuring consistent high-precision performance despite its portability.
Efficient Heat Management System: The dedicated T-shaped radiator prevents the X-ray tube and detector from overheating, which is critical for maintaining stability and precision during prolonged or continuous operation.
The High-Precision Handheld XRF Spectrometer (VRAY VR-H5) works on the principle of X-ray Fluorescence (XRF) to perform metal analysis:
X-ray Emission: When you initiate a test, the spectrometer's internal X-ray tube generates a controlled beam of primary X-rays. This beam is directed towards the surface of the sample.
Atomic Excitation: When these primary X-rays strike the atoms in the sample, they can "knock out" inner-shell electrons from the atoms. This leaves the atoms in an unstable, excited state.
Fluorescent X-ray Emission: To return to a stable state, outer-shell electrons "fall down" to fill the vacant inner-shell positions. When this happens, each atom emits secondary X-rays (called fluorescent X-rays) at specific energy levels that are characteristic and unique to that particular element.
Detection: The Customized Si-Pin detector from USA in the spectrometer captures these fluorescent X-rays. It measures both their energy and intensity.
Data Processing by Smart Software: The raw data from the detector is sent to the spectrometer's internal computer, where smart software with advanced algorithms processes it. The software identifies each element present based on the energy of its characteristic X-rays and quantifies its concentration based on the intensity of those X-rays. Matrix effects (how one element's presence affects another's signal) are corrected for to ensure high-precision results.
Results Display: Within 30 seconds, the complete elemental composition (e.g., percentages of gold, silver, copper, etc., along with karat value if applicable) is displayed on the 4.3" industrial resistive touch screen. The user can then interpret the metal analysis results.
The VRAY VR-H5 High-Precision Handheld XRF Spectrometer is priced between $15,000-$18,000. This investment offers a substantial Return on Investment (ROI) for businesses requiring accurate metal analysis:
ROI for a High-Precision Handheld XRF Spectrometer:
Minimized Financial Loss from Error: The 0.03% accuracy for 9999 gold and high-precision quantification of other elements dramatically reduces the risk of misidentification, overpaying for scrap, or undervaluing precious items. For high-value materials, avoiding just one costly error can pay for the device.
Enhanced Reputation & Customer Trust: Providing immediate, scientifically validated high-precision metal analysis in front of clients builds credibility, leading to stronger relationships and increased repeat business.
Increased Profitability in Trading/Recycling: Accurately identifying specific alloy grades (e.g., distinguishing different stainless steel types) or precisely valuing precious metal content ensures optimal buying and selling prices, directly boosting profit margins.
Streamlined Quality Control: Rapid, high-precision metal analysis on incoming materials and finished products reduces the incidence of defects, rework, and costly product recalls, improving overall quality and reducing waste.
Reduced Reliance on External Labs: Performing accurate, non-destructive analysis in-house eliminates the need for expensive and time-consuming external laboratory testing, saving both money and project turnaround time.
Fraud Prevention: The high-precision capability allows for the definitive identification of plated items, low-karat gold, or other misrepresented materials, protecting against significant financial losses.
Optimized Resource Allocation: Knowing the exact composition of materials (e.g., in mining) allows for more efficient processing and resource extraction.
Proper maintenance and care are crucial to ensure the long-term high-precision performance and reliability of your VRAY VR-H5 High-Precision Handheld XRF Spectrometer for metal analysis:
Daily Maintenance:
Cleaning: After each use, gently wipe the analyzer's body and, most importantly, the measurement window with a soft, lint-free cloth. Ensure the measurement window (especially the beryllium window, if applicable) is clean and free of dust, fingerprints, or dirt to avoid affecting X-ray transmission and measurement accuracy.
Battery Management: Charge the intelligent battery according to manufacturer recommendations. Avoid complete discharge or overcharging. For long-term storage, it's advisable to store the battery at about 50% charge and check it periodically to extend battery life.
Check Sample Window: Regularly inspect the thin film of the sample window for any damage or contamination. If damaged or contaminated, contact after-sales service immediately for replacement to protect the sensitive internal detector.
Periodic Maintenance:
Calibration Verification: Periodically verify the analyzer's calibration using certified reference materials as recommended by VRAY to ensure its 0.03% accuracy for 9999 gold and high precision for other elements are consistently maintained.
Software Updates: Regularly check for and install software and firmware updates released by VRAY. These updates may include performance improvements, new features, or optimized analysis algorithms, helping to keep the spectrometer in optimal condition.
X-ray Tube and Detector Inspection: While these are internal components, authorized after-sales service will monitor their condition during regular inspections. Users should note any unusual noises or performance degradation.
Thermal Management: Ensure the heat dissipation vents (T-shaped radiator area) remain clean and unobstructed to guarantee effective heat dissipation, which is essential for continuous operation and maintaining analysis precision.
Important Notes:
Avoid Impact: Although designed for industrial use, avoid dropping the instrument or subjecting it to strong impacts, which could damage internal precision components.
Environmental Protection: Avoid prolonged use of the instrument outside its specified temperature range (−20∘C to 50∘C). Avoid humid, dusty, or corrosive gas environments.
Professional Service: For any repairs or maintenance that require opening the instrument casing, always contact an authorized VRAY after-sales service center. Do not attempt to disassemble it yourself, as this could damage the equipment or pose a radiation risk.
The "High-Precision" aspect of this Handheld XRF Spectrometer is primarily defined by its Customized Si-Pin detector from USA and optimized excitation source, enabling it to achieve exceptional accuracy, such as 0.03% for 9999 gold, which is crucial for detailed and reliable metal analysis.
Despite its high-precision capabilities, this Handheld XRF Spectrometer provides incredibly fast results, completing a full metal analysis in just 30 seconds. This allows for efficient and rapid material verification.
This High-Precision Handheld XRF Spectrometer is designed for versatile metal analysis, capable of accurately identifying and quantifying a wide range of precious metals (gold, silver, platinum, palladium) as well as common alloying elements and various industrial alloys in solid, liquid, or powder form.
Yes, this High-Precision Handheld XRF Spectrometer is built for industrial demands. It features a robust design capable of operating from -20℃ to 50℃ and includes efficient heat dissipation, ensuring stable high-precision performance even in challenging field conditions for metal analysis.
This High-Precision Handheld XRF Spectrometer is equipped with an intelligent battery that provides approximately 8 hours of continuous work. This extended battery life is vital for prolonged metal analysis tasks in the field without the need for frequent recharging.
The high-precision of this Handheld XRF Spectrometer is attributed to its Customized Si-Pin detector from USA. This advanced detector technology enables superior energy resolution, allowing for accurate differentiation and quantification of elements during metal analysis.
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