The XL3t handheld alloy analyzer is an upgraded version launched by Niton, following the XL2 model. The XL3t adds more user-friendly features, with fast and stable detection speed and lightweight portability.

Technical advantages

Humanized design

XL3t has added optional small point testing and built-in CCD camera focusing function on the basis of the original XL2 model. It can use a 1mm optical path collimation system to conduct targeted testing on small testing areas such as solder joints and welds

The XL3t adopts a new structural design, with an instrument weight of only 1.3kg, making it easy to carry. The display screen adopts a high-definition high brightness screen that can be flipped 90 degrees, and data can be read under any lighting conditions

◆ Good performance

High precision, close to laboratory level analysis level, can intuitively display alloy grade and element percentage content (some elements can be displayed to three decimal places) and ppm content

◆ GOLDD technology
Thermo Fisher Scientific's GOLDD technology has elevated the performance of handheld XRF alloy analyzers to a truly laboratory level. GOLDD technology organically combines high-performance large-area SDD detectors with geometric optimization design ideas. Compared with traditional technology instruments, the analysis speed is increased by about 10 times, the analysis accuracy is increased by about 3 times, and it has high sensitivity and detection accuracy. It has the ability to analyze light elements (Mg, Al, Si, P, S) under non helium or non vacuum conditions

◆ Fast speed and easy operation
The entire analysis process of "boot up - aiming test - viewing results" can be completed in just a few seconds, and alloy grade identification only takes 1-2 seconds. The operation is simple, and even non-technical personnel can easily master it

◆ Special structure
Adopting tough LEXIAN Plastic sealed shell, lightweight, sturdy and durable; Sealed integrated design, dustproof, waterproof, and corrosion-resistant, can be safely used under various conditions

◆ Strong antiviral ability
Built in integrated dedicated operating system, no need for external PDA, fast computing speed, with virus immunity function

◆ Non destructive testing
Unlike destructive testing methods, the sample remained undamaged throughout the entire testing process

◆ Optimize applications
High performance X-ray detector options can provide professional and targeted solutions for alloy analysis applications for different users

NDT software
Niton's proprietary data management software allows you to easily set user login passwords, generate customized reports, print personalized analysis certificates with company logos, and achieve remote control of instruments; Users can edit the alloy grade library and add alloy grades; Automatic calibration and diagnosis of instrument malfunctions; Software upgrade can be achieved through the Internet

◆ Flexible communication function
Bluetooth and USB provide multiple instrument connection methods, with flexible communication options. Upload and download data, edit and output PMI reports conveniently

Technical Parameter

application area

Alloy Material Identification (PMI)

It is important to avoid using substandard or non compliant alloys. More than half of the serious industrial accidents that have occurred in the past were caused by alloy material mixing and pipeline system damage. Therefore, monitoring the changes in alloy materials of production equipment during the production process to ensure safe production is more important than ever before. Sampling inspection poses safety hazards, and replacing sampling inspection with 100% full inspection for all key materials involved is a guarantee of safe production.

This may seem like a challenge, but advances in analytical technology have made it exceptionally simple. Today, the Thermo Fisher Scientific XRF analyzer has become a leader in alloy material identification (PMI) in the industry, with fast, reliable analysis, light weight, durability, and adaptability to various environmental and weather conditions. With the Thermo Fisher Scientific XRF analyzer, maintenance personnel can quickly complete alloy material identification tasks for mile long conveyor systems and production equipment. From metal wires to solder joints, valves, or process pressure vessels, regardless of shape or size, the Thermo Fisher Scientific alloy analyzer can complete the analysis of large quantities of samples in a very short time, accurately and without damage.

In addition, the Thermoscientific Niton handheld XRF analyzer is also suitable for identifying alloy materials in industries such as petrochemicals, power, pressure vessels, metallurgy, mechanical manufacturing, and aerospace.

Quality Control (QA/QC) in Mechanical Manufacturing

For the metal manufacturing industry, quality control and quality assurance are equally important. Material inspection is the key to ensuring the use of qualified materials for metal products. If unqualified metal alloys are used, it will cause catastrophic accidents, bring great economic losses to the enterprise, damage the reputation of the enterprise, and even lead to casualties. Before the quality management system and Six Sigma methodology drew attention to optimizing quality control, many quality control departments relied on ineffective and lax quality inspection methods, or relied solely on material inspection reports for alloy composition.

Now, with the Thermo Fisher Scientific analyzer, which has made great progress in handheld XRF technology, quality control and testing personnel can accurately detect thousands of metal alloy samples every day under non-destructive conditions. In fact, even junior inspectors can confidently measure a large number of samples with complete and accurate results.

The typical testing time of the Thermo Scientific Niton XRF analyzer is 1-2 seconds. If the testing time is extended by a few more seconds, accurate laboratory level test results can be obtained. No need to prepare samples, from metal filaments to finished solder joints, screws, metal plates - all of these samples can be accurately detected by the Thermo Fisher Scientific XRF analyzer.

Metals Recycling

In recent years, the development of the metal waste recycling industry has been extremely rapid. Faced with a variety of alloy types and uneven material quality, advanced testing methods must be used to conduct rapid and accurate analysis and testing on site to adapt to constantly changing market conditions and stand invincible in the fierce industry competition.

Now, with the advanced Thermo Scientific Niton XRF alloy analyzer, a large amount of metal waste can be detected on-site and quickly classified. It only takes a short time to obtain the alloy grade and composition content. Provided necessary information for both buyers and sellers to make quick and reliable judgments during transactions.

Archaeology/Cultural Relic Appraisal

With the continuous development and innovation of technology, identifying the age of ancient artworks and obtaining quantitative data from them has become one of the research methods in the archaeological community and museums. Chemical element data analysis has become a commonly used method in surveying, excavation site mapping, cultural relic protection, or origin identification work.

Real time acquisition of quantitative basic data in this field is important for archaeology and cultural heritage preservation. As a pioneer in handheld X-ray fluorescence analyzers for a long time, the Thermo Scientific NitonXRF analyzer has the ability to provide a set of on-site non-destructive testing solutions for archaeologists and cultural relic protection workers, whether in the field, laboratory, or museum. This is due to the fact that the Thermo Scientific Niton XRF analyzer can choose different analysis modes for on-site analysis of various types of environments, such as selecting alloy analysis mode to analyze the metal element content in bronze ware; By selecting soil or mineral analysis modes, valuable analysis results can be obtained by directly analyzing the metal composition in ceramics and murals, conducting environmental surveys on archaeological sites, or bagging collected samples for analysis.

Analysis of Metal Coating Thickness

Electroplating is the process of depositing a thin layer of other metals or alloys on a metal surface. It is a process that uses electrolysis to attach a layer of metal film to the surface of metal or other material parts, thereby preventing metal oxidation (such as rust), improving wear resistance, conductivity, reflectivity, corrosion resistance (such as copper sulfate), and enhancing aesthetics.

Applications include automobile manufacturing, paint and powder coating manufacturing, electroplating plants, and PCB copper tube thickness measurement.