DM6 M LIBS 미세구조 조성 분석 솔루션

90% 시간 절약: 2-in-1 육안 및 화학 재료 검사 솔루션

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Particles observed on the surface of a particle trap which could be used for technical cleanliness during battery production.

Battery Particle Detection During the Production Process

How battery particle detection and analysis is enhanced with optical microscopy and laser spectroscopy for rapid, reliable, and cost-effective QC during battery production is explained in this…
Preparation of an IC-chip cross section: grinding and polishing of the chip cross section.

Cross-section Analysis for Electronics Manufacturing

This article describes cross-section analysis for electronics concerning quality control and failure analysis of printed circuit boards (PCBs) and assemblies (PCBAs), integrated circuits (ICs), etc.
Image of an integrated-circuit (IC) chip cross section acquired at higher magnification showing a region of interest.

Structural and Chemical Analysis of IC-Chip Cross Sections

This article shows how electronic IC-chip cross sections can be efficiently and reliably prepared and then analyzed, both visually and chemically at the microscale, with the EM TXP and DM6 M LIBS…
Optical microscope image of salt contamination on an aluminum/silicon (Al/Si) surface. Credit: Gerweck GmbH, Germany.

Microscopic Defects in Electroplating

This free on-demand webinar shows how to identify quickly root causes of defects during electroplating of components with optical microscopy and LIBS (laser spectroscopy).
User analyzing particles and fibers on a filter for cleanliness analysis with the DM6 M LIBS 2-methods-in-1 solution.

Basics in Component Cleanliness Analysis

An overview on the basics of component cleanliness and analysis solutions that can be tailored to your specific needs is presented. For the automotive industry, obtaining results rapidly, accurately,…

Cleanliness Analysis with a 2-Methods-in-1 Solution

In this article, it is examined how an overall efficient and cost-effective cleanliness analysis workflow can be achieved with a 2-methods-in-1 materials analysis solution, combining optical…
The various solutions from Leica Microsystems for cleanliness analysis.

Factors to Consider for a Cleanliness Analysis Solution

Choosing the right cleanliness analysis solution is important for optimal quality control. This article discusses the important factors that should be taken into account to find the solution that best…
Particles and fibers on a filter which will be counted and analyzed for cleanliness

Efficient Particle Counting and Analysis

This report discusses particle counting and analysis using optical microscopy for cleanliness of parts and components. Particle counting and analysis is a critical part of quality assurance in the…
A stack of lithium-ion batteries

Quality Control Under the Microscope

Fast-rising demand for electric vehicles is one of the market’s main drivers, but there are other hotspots of growth, including the rise in renewable energy installations, such as photovoltaic panels,…
When particulate contamination is present in lubricating fluids or oils, it can cause damage to parts or components leading to malfunctions.

Hydraulics in the Automotive and Aerospace Industries

Cleanliness standards relating to lubricants, hydraulic fluids, and oils, e.g., ISO 4406 and DIN 51455 are discussed in this article. Cleanliness plays a central role in the automotive and…
Particles which could be found during cleanliness analysis of parts and components.

Cleanliness of Automotive Components and Parts

This article discusses the ISO 16232 standard and VDA 19 guidelines and briefly summarizes the particle analysis methods. They give important criteria for the cleanliness of automotive parts and…
Multiple particles seen on a filter imaged with a microscope

Improving the Cleanliness Analysis Workflow

For automotive manufacturers and automotive component suppliers, obtaining cleanliness results rapidly, accurately, and reliably over the entire workflow is a significant advantage. Often for this…
Particle analysis with LIBS using the DM6 M LIBS 2-in-1 solution: Particle of brass, an alloy of copper (Cu) and zinc (Zn).

High Speed for Your Material Analysis Workflow

Learn from our expert, Dr. Konstantin Kartaschew, how the intelligent combination of light microscopy with laser-induced breakdown spectroscopy (LIBS) will truly accelerate your root-cause-analysis…

Microstructural Characterization including Compositional Analysis

Leica Microsystems' versatile upright compound microscope, DM6 M, fitted with Laser-Induced Breakdown Spectroscopy module will let you not only analyze metallographically polished samples and conduct…

Keeping Particulate Contamination Under Control in Pharmaceutical Products

This article describes how a 2-methods-in-1 solution combining optical microscopy and laser induced breakdown spectroscopy (LIBS) can be utilized for identification of particulate contaminants in the…

Fast Visual and Chemical Analysis of Contamination and Underlying Layers

Visual and chemical analysis of contamination on materials with a 2-methods-in-1 solution leading to an efficient, more complete analysis workflow is described in this report. A 2-in-1 solution,…

Depth Profiling and Layer Analysis for Inspection of Materials with a 2-In-1 Solution Combining Optical Microscopy and Laser Spectroscopy

In addition to simultaneous visual and chemical inspection, a 2-methods-in-1 materials analysis solution, which combines optical microscopy and laser induced breakdown spectroscopy (LIBS), can also be…
Printed Circuit Board (PCB)

Performing Elemental Analysis down to the Micro Scale

If you work in electronic component analysis, you will be familiar with the many challenges posed. Whether you are identifying metallic particles or checking product authenticity, it’s important to…

Visual and Chemical Analysis of Steel Microstructure: Faster Rating of Steel Quality

Simultaneous visual and chemical analysis of steel non-metallic inclusions with a 2-methods-in-1 solution, using optical microscopy and laser induced breakdown spectroscopy (LIBS), is described in…

Simplify and Speed Up Element Analysis at the Micron Range

Learn how to get spatially resolved information about the chemical composition of elements in seconds - quickly and easily.

See the Structure with Microscopy - Know the Composition with Laser Spectroscopy

The advantages of a 2-in-1 materials analysis solution combining optical microscopy and laser induced breakdown spectroscopy (LIBS) for simultaneous visual and chemical inspection are described in…
Microscopy Solutions for Battery Manufacturing

Battery Manufacturing

Battery manufacturing has several key challenges concerning inspection. Solutions for sample preparation and microscopic visual and chemical analysis are needed.

적용 분야


라이카 금속 현미경은 금속, 합금 및 기타 물질의 미세 구조 분석에 최적화되어 있습니다.

자동차 분야

Leica는 최적의 이미징 솔루션을 제공하는 신뢰할 수 있는 파트너가 되어 고객이 경쟁에서 앞서 나갈 수 있기를 희망합니다.

재료 및 지구 과학

신뢰 할 수 있는 고품질의 이미징 및 분석을 위해서는 올바른 도구가 필요합니다. 라이카사의 현미경시스템은 귀하의 모든 연구를 해결하기 위한 유일한 해결책입니다. 현지전문가의 지원과 함께 귀하에 적합한 시스템을 설계하기 위해서 가장 광범위한 광학. 이미징 시스템, 소프트웨어 및 인체 공학적 액세서리를 제공할 것입니다.

기술 청정도

For industrial and electronics manufacturers as well as non-regulated pharma applications, solutions for an efficient technical cleanliness offer significant advantages.

재료 분석 현미경

재료 분석에는 금속 합금, 반도체, 유리 및 세라믹뿐만 아니라 플라스틱 및 폴리머와 같은 다양한 소재의 이미징, 측정 및 특성 분석을 위한 현미경 솔루션이 필요합니다.

산업용 현미경 시장

가동 시간을 최대화하고 목표를 달성하면 수익에 효율적으로 도움이 됩니다. Leica 현미경 솔루션은 가장 작은 샘플 세부 사항에 대한 통찰력을 제공할 뿐만 아니라 결과를 빠르고 안정적으로 분석, 문서화 및 보고할 수 있습니다. Leica Microsystems는 다양한 애플리케이션 요구 사항을 충족하는 데 도움이 되는 광범위한 솔루션과 전문가 지원을…

금속 산업

금속 산업을 위한 라이카의 현미경 솔루션은 소재의 품질을 평가하고 적용될 수 있는 표준을 준수하는지 확인하는 데 유용합니다.

전자 장치의 단면 분석

전자 장치의 단면 분석을 통해 인쇄 회로 기판(PCB), 조립품(PCBA) 및 집적 회로(IC)와 같은 부품의 고장 메커니즘을 상세히 분석할 수 있습니다.

전자 및 반도체 산업

전자 및 반도체의 경우 효율적인 검사, 단면 및 청정도 분석, PCB, 웨이퍼, IC 칩 및 배터리의 R&D를 지원하는 솔루션이 중요합니다.
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