Metals

Non-ferrous Metals

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Non-ferrous materials are vital in various industries such as aerospace, transportation, medical, construction, and automotive due to their unique properties and applications. Unlike steel, which is an alloy of iron and carbon, non-ferrous metals encompass a wide range of pure metals and their alloys. For example:

  • Aluminum: Lightweight and corrosion-resistant, used in aerospace, transportation, and packaging.
  • Copper: Excellent conductivity and antimicrobial properties, vital in electronics, construction, and medical fields.
  • Titanium: High strength-to-weight ratio and biocompatibility, essential in aerospace, medical implants, and marine applications.
  • Magnesium: Extremely lightweight, ideal for aerospace, automotive, and electronics.
  • Nickel: Corrosion-resistant and high-melting point, used in aerospace, batteries, and stainless-steel production.
  • Zinc: Good for galvanizing, key in construction and automotive industries.
  • Lead: High density and radiation shielding properties, used in batteries and medical radiation shielding.
  • Gold, Silver, Platinum: Highly conductive and biocompatible precious metals, used in electronics, medical devices, and aerospace.

Given the diverse compositions and constant advancements, ongoing analysis and improvement of non-ferrous materials are crucial:

  • Elemental Analysis: This process determines the precise chemical composition of non-ferrous materials, ensuring the correct elements and compounds are present to achieve the desired properties and performance.
  • Particle Analysis: Examining the microstructural features of these materials helps detect any inclusions, voids, or defects that could affect their mechanical properties, performance, and resistance to wear and corrosion.
  • Structural Analysis: Assessing properties such as tensile strength, hardness, and elasticity is crucial to ensure that the materials meet the stringent requirements of their intended applications.
  • Surface Analysis: Evaluating the surface characteristics of non-ferrous materials, including their ability to resist wear, corrosion, and environmental degradation, is essential for their use in demanding conditions.

HORIBA Solutions

HORIBA provides advanced analytical instruments and solutions that significantly aid in the analysis of non-ferrous metals.

EMIA-Expert
EMIA-Expert

Carbon/Sulfur Analyzer
(Flagship High-Accuracy Model)

EMGA-Expert
EMGA-Expert

Oxygen/Nitrogen/Hydrogen Analyzer
(Flagship High-Accuracy Model)

GD-Profiler 2™
GD-Profiler 2™

Pulsed-RF Glow Discharge Optical Emission Spectrometer

XGT-9000
XGT-9000

X-ray Analytical Microscope (Micro-XRF)

Partica LA-960V2
Partica LA-960V2

Laser Scattering Particle Size Distribution Analyzer

nanoPartica SZ-100V2 Series
nanoPartica SZ-100V2 Series

Nanoparticle Analyzer

LabRAM Soleil
LabRAM Soleil

Raman Spectroscope - Automated Imaging Microscope

SignatureSPM
SignatureSPM

Scanning Probe Microscope with Chemical Signature

SA-9600 Series
SA-9600 Series

BET Flowing Gas Surface Area Analyzers

EMIA-Pro
EMIA-Pro

Carbon/Sulfur Analyzer (Entry Model)

EMGA-Pro
EMGA-Pro

Oxygen/Nitrogen Analyzer (Entry Model)

PSA300*
PSA300*

Static Image Analysis System Particle Size

ViewSizer 3000
ViewSizer 3000

Simultaneous Multi-Laser Nanoparticle Tracking Analysis (NTA)

MESA-50
MESA-50

X-Ray Fluorescence Analyzer

XploRA™ PLUS
XploRA™ PLUS

MicroRaman Spectrometer - Confocal Raman Microscope

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