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How to use the microscope

How to use the microscope, Total:109 items.

In the international standard classification, How to use the microscope involves: Medical equipment, Optical equipment, Fuels, Coals, Analytical chemistry, Materials for aerospace construction, Testing of metals, Physics. Chemistry, Linear and angular measurements, Mechanical testing, Air quality, Ceramics, Fluid power systems, Raw materials for rubber and plastics, Glass, Electrical equipment for working in special conditions, Vocabularies, Optics and optical measurements, Paints and varnishes, Microbiology, Protection against dangerous goods, Surface treatment and coating, Plastics, Textile fibres.

Japanese Industrial Standards Committee (JISC), How to use the microscope

JIS T 10936-2:2014 Operation microscopes.Part 2: Light hazard from operation microscopes used in ocular surgery
JIS R 1633:1998 Sample preparation method of fine ceramics and fine ceramic powders for scanning electron microscope observation
JIS M 7301:1968 Portable polarizing microscope for sampling and determining incombustible matter in coal and rock-dust mixtures

HU-MSZT, How to use the microscope

British Standards Institution (BSI), How to use the microscope

BS ISO 18221:2016 Microscopes. Microscopes with digital imaging displays. Information provided to the user regarding imaging performance
BS ISO 19056-3:2022 Microscopes. Definition and measurement of illumination properties - Incident light fluorescence microscopy with incoherent light sources
BS ISO 25498:2018 Tracked Changes. Microbeam analysis. Analytical electron microscopy. Selected area electron diffraction analysis using a transmission electron microscope
BS ISO 19056-1:2015 Microscopes. Definition and measurement of illumination properties. Image brightness and uniformity in bright field microscopy
21/30395346 DC BS ISO 19056-3. Microscopes. Definition and measurement of illumination properties. Part 3. Incident light fluorescence microscopy with incoherent light sources
BS ISO 21222:2020 Surface chemical analysis. Scanning probe microscopy. Procedure for the determination of elastic moduli for compliant materials using atomic force microscope and the two-point JKR method
BS ISO 18115-2:2021 Surface chemical analysis. Vocabulary - Terms used in scanning-probe microscopy
PD ISO/TS 10797:2012 Nanotechnologies. Characterization of single-wall carbon nanotubes using transmission electron microscopy
19/30351707 DC BS ISO 21222. Surface chemical analysis. Scanning probe microscopy. Procedure for the determination of elastic moduli for compliant materials using atomic force microscope and the two-point JKR method
PD ISO/TS 22292:2021 Nanotechnologies. 3D image reconstruction of rod-supported nano-objects using transmission electron microscopy
BS ISO 22262-2:2014 Air quality. Bulk materials. Quantitative determination of asbestos by gravimetric and microscopical methods
BS ISO 11952:2019 Surface chemical analysis. Scanning-probe microscopy. Determination of geometric quantities using SPM: Calibration of measuring systems
12/30265696 DC BS ISO 18115-2 AMD1. Surface chemical analysis. Vocabulary. Part 2. Terms used in scanning-probe microscopy
DD ISO/TS 10798:2011 Nanotechnologies. Characterization of single-wall carbon nanotubes using scanning electron microscopy and energy dispersive X-ray spectrometry analysis
BS 2782-8 Methods 823A and 823B:1978 Methods of testing plastics - Other properties - Methods for the assessment of carbon black dispersion in polyethylene using a microscope
BS EN ISO 20706-1:2019 Textiles. Qualitative and quantitative analysis of some bast fibres (flax, hemp, ramie) and their blends - Fibre identification using microscopy methods

Taiwan Provincial Standard of the People's Republic of China, How to use the microscope

CNS 11018-1984 Method of Preparing Coal Samples for Microscopical Analysis by Reflected Light

International Organization for Standardization (ISO), How to use the microscope

ISO/CD 25498:2023 Microbeam analysis — Analytical electron microscopy — Selected area electron diffraction analysis using a transmission electron microscope
ISO 19056-1:2015 Microscopes - Definition and measurement of illumination properties - Part 1: Image brightness and uniformity in bright field microscopy
ISO/WD TR 23683:2023 Surface chemical analysis — scanning probe microscopy — Guideline for experimental quantification of carrier concentration in semiconductor devices by using electric scanning probe microscopy
ISO 18115-2:2010 Analyse chimique des surfaces — Vocabulaire — Partie 2: Termes utilisés en microscopie à sonde à balayage (Première édition)
ISO 11952:2014 Surface chemical analysis - Scanning-probe microscopy - Determination of geometric quantities using SPM: Calibration of measuring systems
ISO/FDIS 29301:2023 Microbeam analysis — Analytical electron microscopy — Methods for calibrating image magnification by using reference materials with periodic structures
ISO 29301:2023 Microbeam analysis — Analytical electron microscopy — Methods for calibrating image magnification by using reference materials with periodic structures
ISO 22262-2:2014 Air quality - Bulk materials - Part 2: Quantitative determination of asbestos by gravimetric and microscopical methods

Korean Agency for Technology and Standards (KATS), How to use the microscope

KS P ISO 10936-2:2020 Optics and photonics — Operation microscopes — Part 2: Light hazard from operation microscopes used in ocular surgery
KS E 4005-2013 Portable polarizing microscope for sampling and determining incombustible matter in coal and rock-dust mixtures
KS D ISO 5949-2002(2012) Tool steels and bearing steels－Micrographic method for assessing the distribution of carbides using reference photomicrographs

KR-KS, How to use the microscope

KS P ISO 10936-2-2020 Optics and photonics — Operation microscopes — Part 2: Light hazard from operation microscopes used in ocular surgery

Standard Association of Australia （SAA）, How to use the microscope

AS 2856.1:2000(R2013)
AS 2856.1:2000 Coal petrography - Preparation of coal samples for incident light microscopy

CZ-CSN, How to use the microscope

CSN 65 6337-1974 Determination of mechanical impurities content using a microscope

Danish Standards Foundation, How to use the microscope

DS/ISO 10936-2:2010 Optics and photonics - Operation microscopes - Part 2: Light hazard from operation microscopes used in ocular surgery
DS/ISO/TS 10797:2012 Nanotechnologies - Characterization of single-wall carbon nanotubes using transmission electron microscopy
DS/ISO/TS 22292:2021 Nanotechnologies – 3D image reconstruction of rod-supported nano-objects using transmission electron microscopy
DS/ISO/TS 10798:2011 Nanotechnologies - Charaterization of single-wall carbon nanotubes using scanning electron microscopy and energy dispersive X-ray spectrometry analysis

ANSI - American National Standards Institute, How to use the microscope

Z80.38-2017 Ophthalmics - Light Hazard from Operation Microscopes Used in Ocular Surgery

PL-PKN, How to use the microscope

PN H87903-1972 Irwestigations o? copper alloys castings Preparation and sampling ot ?es? pieces for microscopis examinations
PN Z04097 Arkusz 01-1974 Air purity protection Tests for the size composition of dust Measurement of quantitative distribution of projective dust particie size ^2 (im with micros- cope without using of immersion li?uid

American Society for Testing and Materials (ASTM), How to use the microscope

ASTM E2859-11(2017) Standard Guide for Size Measurement of Nanoparticles Using Atomic Force Microscopy
ASTM E285-08(2015) Standard Test Method for Oxyacetylene Ablation Testing of Thermal Insulation Materials
ASTM D3997/D3997M-97(2009) Standard Practice for Preparing Coke Samples for Microscopical Analysis by Reflected Light
ASTM D3997/D3997M-16 Standard Practice for Preparing Coke Samples for Microscopical Analysis by Reflected Light
ASTM D2797-85(1999) Standard Practice for Preparing Coal Samples for Microscopical Analysis by Reflected Light
ASTM E3060-16 Standard Guide for Subvisible Particle Measurement in Biopharmaceutical Manufacturing Using Dynamic (Flow) Imaging Microscopy
ASTM E2859-11(2023) Standard Guide for Size Measurement of Nanoparticles Using Atomic Force Microscopy
ASTM D7200-06 Standard Practice for Sampling and Counting Airborne Fibers, Including Asbestos Fibers, in Mines and Quarries, by Phase Contrast Microscopy and Transmission Electron Microscopy
ASTM D7201-06(2011) Standard Practice for Sampling and Counting Airborne Fibers, Including Asbestos Fibers, in the Workplace, by Phase Contrast Microscopy (with an Option of Transmission Electron Microscopy)
ASTM D5671-95(2011) Standard Practice for Polishing and Etching Coal Samples for Microscopical Analysis by Reflected Light
ASTM D3849-14a Standard Test Method for Carbon Black—Morphological Characterization of Carbon Black Using Electron Microscopy
ASTM E1967-98(2003) Standard Test Method for the Automated Determinaton of Refractive Index of Glass Samples Using the Oil Immersion Method and a Phase Contrast Microscope
ASTM E1967-19 Standard Test Method for the Automated Determination of Refractive Index of Glass Samples Using the Oil Immersion Method and a Phase Contrast Microscope
ASTM D5755-03 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Structure Number Surface Loading
ASTM D5755-09 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Structure Number Surface Loading
ASTM D5755-09(2014)e1 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Structure Number Surface Loading
ASTM E1967-98 Standard Test Method for the Automated Determinaton of Refractive Index of Glass Samples Using the Oil Immersion Method and a Phase Contrast Microscope
ASTM D5756-02 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Mass Concentration
ASTM D5756-95 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Mass Concentration
ASTM E2809-13 Standard Guide for Using Scanning Electron Microscopy/X-Ray Spectrometry in Forensic Paint Examinations
ASTM D5755-95 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Structure Number Concentrations
ASTM D5755-02 Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Structure Number Concentrations
ASTM D5756-02(2008) Standard Test Method for Microvacuum Sampling and Indirect Analysis of Dust by Transmission Electron Microscopy for Asbestos Mass Surface Loading
ASTM D7391-09 Standard Test Method for Categorization and Quantification of Airborne Fungal Structures in an Inertial Impaction Sample by Optical Microscopy
ASTM D7201-06 Standard Practice for Sampling and Counting Airborne Fibers, Including Asbestos Fibers, in the Workplace, by Phase Contrast Microscopy (with and Option of Transmission Electron Microscopy)
ASTM D7200-12 Standard Practice for Sampling and Counting Airborne Fibers, Including Asbestos Fibers, in Mines and Quarries, by Phase Contrast Microscopy and Transmission Electron Microscopy
ASTM F1438-93(2012) Standard Test Method for Determination of Surface Roughness by Scanning Tunneling Microscopy for Gas Distribution System Components
ASTM E3060-23 Standard Guide for Subvisible Particle Measurement in Biopharmaceutical Manufacturing Using Dynamic (Flow) Imaging Microscopy
ASTM E280-98(2004)e1 Standard Reference Radiographs for Heavy-Walled (4 &189; to 12-in. [114 to 305-mm]) Steel Castings
ASTM E280-21 Standard Reference Radiographs for Heavy-Walled (412 to 12 in. (114 to 305 mm)) Steel Castings
ASTM E2809-22 Standard Guide for Using Scanning Electron Microscopy/Energy Dispersive X-Ray Spectroscopy (SEM/EDS) in Forensic Polymer Examinations
ASTM D6480-05(2010) Standard Test Method for Wipe Sampling of Surfaces, Indirect Preparation, and Analysis for Asbestos Structure Number Concentration by Transmission Electron Microscopy
ASTM B651-83(2019) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with Double-Beam Interference Microscope
ASTM D6480-99 Standard Test Method for Wipe Sampling of Surfaces, Indirect Preparation, and Analysis for Asbestos Structure Number Concentration by Transmission Electron Microscopy
ASTM D6480-05 Standard Test Method for Wipe Sampling of Surfaces, Indirect Preparation, and Analysis for Asbestos Structure Number Concentration by Transmission Electron Microscopy
ASTM E2090-06 Standard Test Method for Size-Differentiated Counting of Particles and Fibers Released from Cleanroom Wipers Using Optical and Scanning Electron Microscopy
ASTM E2090-12(2020) Standard Test Method for Size-Differentiated Counting of Particles and Fibers Released from Cleanroom Wipers Using Optical and Scanning Electron Microscopy
ASTM C978-04(2019) Standard Test Method for Photoelastic Determination of Residual Stress in a Transparent Glass Matrix Using a Polarizing Microscope and Optical Retardation Compensation Procedures
ASTM E3275-21 Standard Guide for Visualization and Identification of Nanomaterials in Biological and Nonbiological Matrices Using Darkfield Microscopy/Hyperspectral Imaging (DFM/HSI) Analysis
ASTM D8526-23 Standard Test Method for Analytical Procedure Using Transmission Electron Microscopy for the Determination of the Concentration of Carbon Nanotubes and Carbon Nanotube-containing Particles in Ambient
ASTM E3284-23 Standard Practice for Training in the Forensic Examination of Primer Gunshot Residue (pGSR) Using Scanning Electron Microscopy/Energy Dispersive X-Ray Spectrometry (SEM/EDS)

IT-UNI, How to use the microscope

UNI 7329-1974 Examination with electron microscope of metallic materials by the replica technique. Preparation of replicas for microstructure examination.

German Institute for Standardization, How to use the microscope

DIN SPEC 52407:2015-03 Nanotechnologies - Methods for preparation and assessment for particle measurements with atomic force microscopy (AFM) and transmission scanning electron microscopy (TSEM)
DIN EN 15204:2006-12 Water quality - Guidance standard on the enumeration of phytoplankton using inverted microscopy (Utermöhl technique); German version EN 15204:2006
DIN 58959-4:1997-06 Quality management in medical microbiology - Part 4: Requirements for investigations using light microscopes / Note: To be replaced by DIN 58959-6 Beiblatt 2 (2021-08, t).

Military Standards (MIL-STD), How to use the microscope

DOD A-A-54222-1990 WATER BATH, ELECTRIC (MICROTOME TISSUE SPECIMEN SECTION MOUNTING)

Association Francaise de Normalisation, How to use the microscope

FD T16-209:2012 Nanotechnologies - Characterization of single-wall carbon nanotubes using transmission electron microscopy
NF X43-066-2*NF ISO 22262-2:2014 Air quality - Bulk materials - Part 2 : quantitative determination of asbestos by gravimetric and microscopical methods
FD T16-203:2011 Nanotechnologies - Characterization of single-wall carbon nanotubes using scanning electron microscopy and energy dispersive X-ray spectrometry analysis

Association of German Mechanical Engineers, How to use the microscope

VDI/VDE 2656 Blatt 1-2008 Determination of geometrical quantities by using of Scanning Probe Microscopes - Calibration of measurement systems
VDI 2119-2013 Ambient air measurements - Sampling of atmospheric particles > 2,5 ?m on an acceptor surface using the Sigma-2 passive sampler - Characterisation by optical microscopy and calculation of number settling rate and mass concentration

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, How to use the microscope

GB/T 17507-1998 General specification of thin biological standards for X-Ray-Ray EDS microanalysis in electron microscope
GB/T 17507-2008 General specification of thin biological standards for X-ray EDS microanalysis in transmission electron microscope

中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会, How to use the microscope

GB/T 32262-2015 Preparation of deoxyribonucleic acid sample for atomic force microscope measurement

RO-ASRO, How to use the microscope

SR ISO 4407:1991 Hydraulic fluid power -Fluid contamination - Determinatidn of particulate contamination by the counting method using a microscope

BE-NBN, How to use the microscope

NBN EN ISO 9220:1995 Metallic coatings - Measurement of coating thickness - Scanning électron microscope method (ISO 9220:1988)

ESDU - Engineering Sciences Data Unit, How to use the microscope

SPB-M6-1-2010 Apr.08: Interfacial and Rheological Properties of Asphaltenes Investigated using AFM

RU-GOST R, How to use the microscope

GOST ISO 4407-2006 Industrial cleanliness. Determination of fluid contamination by the counting method using an optical microscope

未注明发布机构, How to use the microscope

DIN EN ISO 21363:2022 Nanotechnologies – measurements of particle size and particle shape distributions using transmission electron microscopy

TIA - Telecommunications Industry Association, How to use the microscope

TIA/EIA-455-45-B-1992 FOTP-45 Method for Measuring Optical Fiber Geometry Using a Laboratory Microscope (Withdrawn May@ 2003)

Canadian General Standards Board （CGSB), How to use the microscope

CGSB 4.2 NO. 73.1-M91-CAN/CGSB-1991 M閠hodes Pour 閜reuves textiles Laine ?D閠ermination du pourcentage de fibres m閐ull閑s, au moyen du microscope ?projection

GOSTR, How to use the microscope

PNST 507-2020 Nanotechnologies. Single-wall carbon nanotubes. Characterization by using transmission electron microscopy and energy dispersive X-ray spectrometry

BELST, How to use the microscope

STB 2210-2011 Nano-sized carbon and non-carbon materials and composites based on them. Method for determining parameters using scan electron microscopy measurements
STB 2209-2011 Nano-sized carbon and non-carbon materials and composites based on them. The technique for determining elemental composition using scan electron microscopy measurements