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Leica DM4 M & DM6 M 정립형 재료 현미경

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Image of magnetic steel taken with a 100x objective using Kerr microscopy. The magnetic domains in the grains appear in the image with lighter and darker patterns. A few domains are marked with red arrows. Courtesy of Florian Lang-Melzian, Robert Bosch GmbH, Germany.

Rapidly Visualizing Magnetic Domains in Steel with Kerr Microscopy

The rotation of polarized light after interaction with magnetic domains in a material, known as the Kerr effect, enables the investigation of magnetized samples with Kerr microscopy. It allows rapid…
Region of a patterned wafer inspected using optical microscopy and automated and reproducible DIC (differential interference contrast). With DIC users are able to visualize small height differences on the wafer surface more easily.

6-Inch Wafer Inspection Microscope for Reliably Observing Small Height Differences

A 6-inch wafer inspection microscope with automated and reproducible DIC (differential interference contrast) imaging, no matter the skill level of users, is described in this article. Manufacturing…
Optical microscope image, which is a composition of both brightfield and fluorescence illumination, showing organic contamination on a wafer surface. The inset images in the upper left corner show the brightfield image (above) and fluorescence image (below with dark background).

Visualizing Photoresist Residue and Organic Contamination on Wafers

As the scale of integrated circuits (ICs) on semiconductors passes below 10 nm, efficient detection of organic contamination, like photoresist residue, and defects during wafer inspection is becoming…
Particulate contamination in between moving metal plates.

Key Factors for Efficient Cleanliness Analysis

An overview of the key factors necessary for technical cleanliness and efficient cleanliness analysis concerning automotive and electronics manufacturing and production is provided in this article.
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…
Neurons imaged with DIC contrast.

Differential Interference Contrast (DIC) Microscopy

This article demonstrates how differential interference contrast (DIC) can be actually better than brightfield illumination when using microscopy to image unstained biological specimens.
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,…
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…
Sport Fabrics Taped I3 10x Color

How Industrial Applications Benefit from Fluorescence Microscopy

Watch this free webinar to know more about what you can do with fluorescence microscopy for industrial applications. We will cover a wide range of investigations where fluorescence contrast offers new…

Challenges Faced When Manually Rating Non-Metallic Inclusions (NMIs) to Determine Steel Quality

Rapid, accurate, and reliable rating of non-metallic inclusions (NMIs) is instrumental for the determination of steel quality. This article describes the challenges that arise from manual NMI rating,…

Reasons Why There is Growing Need for Fast and Reliable Steel Quality Rating Solutions

Steel quality is critical for the manufacturing of high-quality components and products. Fast, reliable, and accurate detection and classification of inclusions has become essential for both component…

Inverted Microscopes for Grain Size Analysis: Three Factors to Consider

Microscopic steel grain size analysis is useful in determining the quality of steel alloys for a given purpose such as building bridges vs railroad rails. This webinar will describe the preparation of…

Top Issues Related to Standards for Rating Non-Metallic Inclusions in Steel

Supplying components and products made of steel to users worldwide can require that a single batch be compliant with multiple steel quality standards. This user demand creates significant challenges…

Rate the Quality of Your Steel: Free Webinar and Report

This webinar and report describe optimal microscopy solutions for rating steel quality in terms of non-metallic inclusions and reviews the various international and regional standards concerning…

Metallography – an Introduction

This article gives an overview of metallography and metallic alloy characterization. Different microscopy techniques are used to study the alloy microstructure, i.e., microscale structure of grains,…
Measuring grains size with Abrams Three-Circle Procedure.

How to Adapt Grain Size Analysis of Metallic Alloys to Your Needs

Metallic alloys, such as steel and aluminum, have an important role in a variety of industries, including automotive and transportation. In this report, the importance of grain size analysis for alloy…
Extended Depth of Focus (EDOF) images

How To Create EDOF (Extended Depth of Focus) Images

Watch this video to see how you can rapidly record sharp optical microscope images of samples with a large height variation. This is done with the optional Extended Depth of Focus (EDOF) function of…

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…

금속학

라이카 금속 현미경은 금속, 합금 및 기타 물질의 미세 구조 분석에 최적화되어 있습니다.
배터리 제조를 위한 현미경 솔루션

배터리 제조

배터리 제조에는 검사와 관련된 몇 가지 주요 과제가 있습니다. 여기에는 샘플 준비, 현미경 육안 검사 및 화학 분석을 위한 솔루션이 필요합니다.

적용 분야

자동차 분야

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

강철 품질 평가

비금속 개재물 평가에 대한 효율성이 향상되어 강철 공급업체 및 산업 제조사는 보다 짧은 시간 안에 강철 품질을 검증하여 신뢰할 수 있는 성능과 긴 수명을 보장할 수 있습니다. 계속 엄격해지고 있는 표준과 사양으로 인해 국제, 지역 및 기관 규범을 준수하여 비금속 개재물에 까다로운 평가가 필요해지고 있습니다.

법의학

과학수사에서 현미경 및 이미징 장비는 증거를 조사 할때 정확성을 위하여 결과의 정밀도, 품질, 정확성 및 재현성을 제공해야합니다. 라이카사는 일반 실험장비에서 완전 자동화 시스템까지 광범위한 현미경 시스템을 사용하여 정량, 분석 및 문서화 작업을 지원 해줍니다.

금속학

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

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.

배터리 제조

배터리 제조에는 검사와 관련된 몇 가지 주요 과제가 있습니다. 여기에는 샘플 준비, 현미경 육안 검사 및 화학 분석을 위한 솔루션이 필요합니다.
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